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Searching journal of publication like 'American Mineralogist'

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COD ID	Links	Formula	Space group	Cell parameters	Cell volume	Bibliography
9013303	CIF	C W	P -6 m 2	2.902; 2.902; 2.831 90; 90; 120	20.647	Fang, Q.; Bai, W.; Yang, J.; Xu, X.; Li, G.; Shi, N.; Xiong, M.; Rong, H. Qusong (WC): A new mineral American Mineralogist, 2009, 94, 387-290
9000669	CIF	Fe	I m -3 m	2.811; 2.811; 2.811 90; 90; 90	22.212	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 108 Kbar American Mineralogist, 1978, 63, 591-596
9000668	CIF	Fe	I m -3 m	2.814; 2.814; 2.814 90; 90; 90	22.283	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 101 Kbar American Mineralogist, 1978, 63, 591-596
9000667	CIF	Fe	I m -3 m	2.819; 2.819; 2.819 90; 90; 90	22.402	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 98 Kbar American Mineralogist, 1978, 63, 591-596
9000666	CIF	Fe	I m -3 m	2.822; 2.822; 2.822 90; 90; 90	22.474	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 82 Kbar American Mineralogist, 1978, 63, 591-596
9000664	CIF	Fe	I m -3 m	2.828; 2.828; 2.828 90; 90; 90	22.617	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 69 Kbar American Mineralogist, 1978, 63, 591-596
9000665	CIF	Fe	I m -3 m	2.829; 2.829; 2.829 90; 90; 90	22.641	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 75 Kbar American Mineralogist, 1978, 63, 591-596
9000663	CIF	Fe	I m -3 m	2.835; 2.835; 2.835 90; 90; 90	22.786	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 57 Kbar American Mineralogist, 1978, 63, 591-596
9000662	CIF	Fe	I m -3 m	2.838; 2.838; 2.838 90; 90; 90	22.858	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 52 Kbar American Mineralogist, 1978, 63, 591-596
9010019	CIF	Fe0.725 Ni0.025 Si0.25	I m -3 m	2.841; 2.841; 2.841 90; 90; 90	22.931	Keil, K.; Berkley, J. L.; Fuchs, J. H. Suessite, Fe3Si: a new mineral in the North Haig ureilite American Mineralogist, 1982, 67, 126-131
9000661	CIF	Fe	I m -3 m	2.842; 2.842; 2.842 90; 90; 90	22.955	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 43 Kbar American Mineralogist, 1978, 63, 591-596
9010017	CIF	Fe Ni	P 4/m m m	2.533; 2.533; 3.582 90; 90; 90	22.982	Clarke, R. S.; Scott, E. R. D. Tetrataenite - ordered FeNi, a new mineral in meteorites American Mineralogist, 1980, 65, 624-630
9000660	CIF	Fe	I m -3 m	2.845; 2.845; 2.845 90; 90; 90	23.028	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 39 Kbar American Mineralogist, 1978, 63, 591-596
9000659	CIF	Fe	I m -3 m	2.85; 2.85; 2.85 90; 90; 90	23.149	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 29 Kbar American Mineralogist, 1978, 63, 591-596
9002671	CIF	Fe	I m -3 m	2.855; 2.855; 2.855 90; 90; 90	23.271	Fjellvag, H.; Hauback, B. C.; Vogt, T.; Stolen, S. Monoclinic nearly stoichiometric wustite at low temperatures Sample: BNL, T = 10 K American Mineralogist, 2002, 87, 347-349
9000658	CIF	Fe	I m -3 m	2.86; 2.86; 2.86 90; 90; 90	23.394	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 10 Kbar American Mineralogist, 1978, 63, 591-596
9002672	CIF	Fe	I m -3 m	2.8604; 2.8604; 2.8604 90; 90; 90	23.403	Fjellvag, H.; Hauback, B. C.; Vogt, T.; Stolen, S. Monoclinic nearly stoichiometric wustite at low temperatures Sample: Kjeller, T = 8 K American Mineralogist, 2002, 87, 347-349
9000657	CIF	Fe	I m -3 m	2.866; 2.866; 2.866 90; 90; 90	23.541	Wilburn, D. R.; Bassett, W. A. Hydrostatic compression of iron and related compounds: An overview P = 1 Kbar American Mineralogist, 1978, 63, 591-596
9017089	CIF	Al0.38 Fe0.3 Ni0.32	I m -3 m	3.0214; 3.0214; 3.0214 90; 90; 90	27.582	Bindi, L.; Yao, N.; Lin, C.; Hollister, L. S.; MacPherson, G. J.; Poirier, G. R.; Andronicos, C. L.; Distler, V. V.; Eddy, M. P.; Kostin, A.; Kryachko, V.; Steinhardt, W. M.; Yudovskaya, M. Steinhardtite, a new body-centered-cubic allotropic form of aluminum from the Khatyrka CV3 carbonaceous chondrite American Mineralogist, 2014, 99, 2433-2436
9002354	CIF	H2 Mg O2	P -3 m 1	2.9838; 2.9838; 4.294 90; 90; 120	33.108	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = 18.0 GPa American Mineralogist, 2000, 85, 760-764
9002353	CIF	H2 Mg O2	P -3 m 1	3.0003; 3.0003; 4.325 90; 90; 120	33.717	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = 16.0 GPa American Mineralogist, 2000, 85, 760-764
9002352	CIF	H2 Mg O2	P -3 m 1	3.0114; 3.0114; 4.353 90; 90; 120	34.187	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = 12.5 GPa American Mineralogist, 2000, 85, 760-764
9001589	CIF	D1.998 Mg O2	P -3 m 1	3.0365; 3.0365; 4.403 90; 90; 120	35.158	Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B. Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 9.3 GPa American Mineralogist, 1994, 79, 193-196
9002351	CIF	H2 Mg O2	P -3 m 1	3.0533; 3.0533; 4.475 90; 90; 120	36.13	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = 8.9 GPa American Mineralogist, 2000, 85, 760-764
9001588	CIF	D1.998 Mg O2	P -3 m 1	3.0728; 3.0728; 4.496 90; 90; 120	36.764	Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B. Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 5.4 GPa American Mineralogist, 1994, 79, 193-196
9002350	CIF	H2 Mg O2	P -3 m 1	3.0763; 3.0763; 4.549 90; 90; 120	37.282	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = 6.2 GPa American Mineralogist, 2000, 85, 760-764
9001587	CIF	D1.998 Mg O2	P -3 m 1	3.1167; 3.1167; 4.63 90; 90; 120	38.949	Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B. Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 1.9 GPa American Mineralogist, 1994, 79, 193-196
9002349	CIF	H2 Mg O2	P -3 m 1	3.109; 3.109; 4.6573 90; 90; 120	38.986	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = 2.5 GPa American Mineralogist, 2000, 85, 760-764
9002348	CIF	H2 Mg O2	P -3 m 1	3.1264; 3.1264; 4.7315 90; 90; 120	40.051	Nagai, T.; Hattori, T.; Yamanaka, T. Compression mechanism of brucite: An investigation by the structural refinement under pressure Sample: P = .6 GPa American Mineralogist, 2000, 85, 760-764
9002669	CIF	Fe0.99 O	C 1 2/m 1	5.2615; 3.0334; 3.0602 90; 124.649; 90	40.179	Fjellvag, H.; Hauback, B. C.; Vogt, T.; Stolen, S. Monoclinic nearly stoichiometric wustite at low temperatures Sample: BNL, T = 10 K American Mineralogist, 2002, 87, 347-349
9001586	CIF	D1.998 Mg O2	P -3 m 1	3.1382; 3.1382; 4.713 90; 90; 120	40.197	Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B. Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 0.4 GPa American Mineralogist, 1994, 79, 193-196
9002670	CIF	Fe0.99 O	C 1 2/m 1	5.2642; 3.0327; 3.0626 90; 124.646; 90	40.224	Fjellvag, H.; Hauback, B. C.; Vogt, T.; Stolen, S. Monoclinic nearly stoichiometric wustite at low temperatures Sample: Kjeller, T = 8 K American Mineralogist, 2002, 87, 347-349
1557002	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14291; 3.14291; 4.72398 90; 90; 120	40.4113	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 20 K American Mineralogist, 2013, 98, 1-6
1557004	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14282; 3.14282; 4.7243 90; 90; 120	40.4117	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 40 K American Mineralogist, 2013, 98, 1-6
1557003	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14289; 3.14289; 4.72413 90; 90; 120	40.412	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 30 K American Mineralogist, 2013, 98, 1-6
1557005	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14287; 3.14287; 4.72506 90; 90; 120	40.4195	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 50 K American Mineralogist, 2013, 98, 1-6
1557006	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.1431; 3.1431; 4.72562 90; 90; 120	40.4302	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 60 K American Mineralogist, 2013, 98, 1-6
1557007	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14297; 3.14297; 4.7264 90; 90; 120	40.4335	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 70 K American Mineralogist, 2013, 98, 1-6
1557008	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14312; 3.14312; 4.72688 90; 90; 120	40.4415	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 80 K American Mineralogist, 2013, 98, 1-6
1557009	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14311; 3.14311; 4.7277 90; 90; 120	40.4482	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 90 K American Mineralogist, 2013, 98, 1-6
1557010	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14294; 3.14294; 4.72821 90; 90; 120	40.4482	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 100 K American Mineralogist, 2013, 98, 1-6
1557011	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14304; 3.14304; 4.7298 90; 90; 120	40.4644	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 120 K American Mineralogist, 2013, 98, 1-6
1557012	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.1433; 3.1433; 4.73246 90; 90; 120	40.4939	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 150 K American Mineralogist, 2013, 98, 1-6
1557013	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14385; 3.14385; 4.73856 90; 90; 120	40.56	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 200 K American Mineralogist, 2013, 98, 1-6
1557014	CIF	D1.96 H0.04 Mg O2	P -3 m 1	3.14597; 3.14597; 4.75387 90; 90; 120	40.746	Chakoumakos, B.C.; Horita, J.; Garlea, V.O. H/D isotope effects in brucite at low temperatures : At 295 K American Mineralogist, 2013, 98, 1-6
9014113	CIF	Fe	F m -3 m	3.468; 3.468; 3.468 90; 90; 90	41.71	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 27.44 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9014851	CIF	Fe	F m -3 m	3.473; 3.473; 3.473 90; 90; 90	41.89	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M620, P = 26.55 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9016025	CIF	Fe	F m -3 m	3.475; 3.475; 3.475 90; 90; 90	41.963	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 24.37 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9015906	CIF	Fe	F m -3 m	3.477; 3.477; 3.477 90; 90; 90	42.035	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 25.72 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9002259	CIF	Fe H1.714 O2	P -3 m 1	3.25919; 3.25919; 4.5765 90; 90; 120	42.1	Parise, J. B.; Marshall, W. G.; Smith, R. I.; Lutz, H. D.; Moller, H. The nuclear and magnetic structure of "white rust"-Fe(OH0.86D0.14)2 Sample: T = 10 K American Mineralogist, 2000, 85, 189-193
9016329	CIF	Fe	F m -3 m	3.48; 3.48; 3.48 90; 90; 90	42.144	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 25.01 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9002260	CIF	Fe H1.726 O2	P -3 m 1	3.26238; 3.26238; 4.5822 90; 90; 120	42.235	Parise, J. B.; Marshall, W. G.; Smith, R. I.; Lutz, H. D.; Moller, H. The nuclear and magnetic structure of "white rust"-Fe(OH0.86D0.14)2 Sample: T = 150 K American Mineralogist, 2000, 85, 189-193
9016648	CIF	Fe	F m -3 m	3.484; 3.484; 3.484 90; 90; 90	42.29	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 22.34 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9015321	CIF	Fe	F m -3 m	3.485; 3.485; 3.485 90; 90; 90	42.326	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M620, P = 24.19 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9002261	CIF	Fe H1.728 O2	P -3 m 1	3.26515; 3.26515; 4.6013 90; 90; 120	42.483	Parise, J. B.; Marshall, W. G.; Smith, R. I.; Lutz, H. D.; Moller, H. The nuclear and magnetic structure of "white rust"-Fe(OH0.86D0.14)2 Sample: T = 300 K American Mineralogist, 2000, 85, 189-193
9015019	CIF	Fe	F m -3 m	3.49; 3.49; 3.49 90; 90; 90	42.509	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M620, P = 23.17 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9015687	CIF	Fe	F m -3 m	3.494; 3.494; 3.494 90; 90; 90	42.655	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 22.44 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9016635	CIF	Fe	F m -3 m	3.495; 3.495; 3.495 90; 90; 90	42.692	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 19.82 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9015105	CIF	Fe	F m -3 m	3.498; 3.498; 3.498 90; 90; 90	42.802	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 21.57 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
1557930	CIF	O3 Si Sr	P m -3 m	3.5034; 3.5034; 3.5034 90; 90; 90	43	Xiao, W.; Tan, D.; Zhou, W.; Liu, J.; Xu, J. Cubic perovskite polymorph of strontium metasilicate at high pressures American Mineralogist, 2013, 98, 2096-2104
9016184	CIF	Fe	F m -3 m	3.504; 3.504; 3.504 90; 90; 90	43.022	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 20.64 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9016506	CIF	Fe	F m -3 m	3.507; 3.507; 3.507 90; 90; 90	43.133	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 17.47 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9015752	CIF	Fe	F m -3 m	3.509; 3.509; 3.509 90; 90; 90	43.207	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M620, P = 19.70 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9014285	CIF	Fe	F m -3 m	3.514; 3.514; 3.514 90; 90; 90	43.392	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 18.69 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9016480	CIF	Fe	F m -3 m	3.519; 3.519; 3.519 90; 90; 90	43.577	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 15.37 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9014789	CIF	Fe	F m -3 m	3.521; 3.521; 3.521 90; 90; 90	43.651	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M620, P = 17.59 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9014540	CIF	Fe	F m -3 m	3.527; 3.527; 3.527 90; 90; 90	43.875	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M620, P = 16.63 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9015529	CIF	Fe	F m -3 m	3.531; 3.531; 3.531 90; 90; 90	44.024	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 13.36 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9015258	CIF	Fe	F m -3 m	3.533; 3.533; 3.533 90; 90; 90	44.099	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 15.58 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9014231	CIF	Fe	F m -3 m	3.539; 3.539; 3.539 90; 90; 90	44.324	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 14.45 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9001283	CIF	O2 Si	P 42/m n m	4.1043; 4.1043; 2.6417 90; 90; 90	44.5	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 15.0 Gpa American Mineralogist, 1990, 75, 739-747
9014287	CIF	Fe	F m -3 m	3.544; 3.544; 3.544 90; 90; 90	44.512	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 11.48 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9000089	CIF	Co0.027 Fe0.283 Ni0.689	F m -3 m	3.545; 3.545; 3.545 90; 90; 90	44.55	Williams, K. L. An association of awaruite with heazlewoodite American Mineralogist, 1960, 45, 450-453
9015406	CIF	Fe	F m -3 m	3.545; 3.545; 3.545 90; 90; 90	44.55	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 13.63 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9000088	CIF	Co0.027 Fe0.283 Ni0.689	F m -3 m	3.549; 3.549; 3.549 90; 90; 90	44.701	Williams, K. L. An association of awaruite with heazlewoodite American Mineralogist, 1960, 45, 450-453
9014454	CIF	Fe	F m -3 m	3.551; 3.551; 3.551 90; 90; 90	44.777	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 12.71 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9000090	CIF	Co0.039 Cu0.003 Fe0.262 Ni0.695	F m -3 m	3.553; 3.553; 3.553 90; 90; 90	44.852	Williams, K. L. An association of awaruite with heazlewoodite American Mineralogist, 1960, 45, 450-453
9014605	CIF	Fe	F m -3 m	3.555; 3.555; 3.555 90; 90; 90	44.928	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 9.90 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9015445	CIF	Fe	F m -3 m	3.557; 3.557; 3.557 90; 90; 90	45.004	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 11.66 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9001282	CIF	O2 Si	P 42/m n m	4.1246; 4.1246; 2.6474 90; 90; 90	45.038	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 11.0 Gpa American Mineralogist, 1990, 75, 739-747
9000015	CIF	Cu Fe O2	R -3 m :R	5.96; 5.96; 5.96 29.43; 29.43; 29.43	45.238	Pabst, A. Crystal structure and density of delafossite American Mineralogist, 1938, 23, 175-176
9001281	CIF	O2 Si	P 42/m n m	4.1337; 4.1337; 2.6517 90; 90; 90	45.311	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 9.0 Gpa American Mineralogist, 1990, 75, 739-747
9015166	CIF	Fe	F m -3 m	3.569; 3.569; 3.569 90; 90; 90	45.461	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 8.02 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9014056	CIF	Fe	F m -3 m	3.581; 3.581; 3.581 90; 90; 90	45.921	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M622, P = 6.41 GPa, T = 1073 K American Mineralogist, 2012, 97, 1417-1420
9001280	CIF	O2 Si	P 42/m n m	4.156; 4.156; 2.6601 90; 90; 90	45.946	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 4.7 Gpa American Mineralogist, 1990, 75, 739-747
9014591	CIF	Fe	F m -3 m	3.583; 3.583; 3.583 90; 90; 90	45.998	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 8.36 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9001279	CIF	O2 Si	P 42/m n m	4.1593; 4.1593; 2.6613 90; 90; 90	46.04	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 4.0 Gpa American Mineralogist, 1990, 75, 739-747
9001278	CIF	O2 Si	P 42/m n m	4.1667; 4.1667; 2.6645 90; 90; 90	46.259	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 2.5 Gpa American Mineralogist, 1990, 75, 739-747
9001277	CIF	O2 Si	P 42/m n m	4.1713; 4.1713; 2.6655 90; 90; 90	46.379	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 1.7 Gpa American Mineralogist, 1990, 75, 739-747
9014476	CIF	Fe	F m -3 m	3.595; 3.595; 3.595 90; 90; 90	46.462	Nishihara, Y.; Nakajima, Y.; Akashi, A.; Tsujino, N.; Takahashi, E.; Funakoshi, K.; Higo, Y. Isothermal compression of face-centered cubic iron Note: gamma iron, Sample M605, P = 6.81 GPa, T = 1273 K American Mineralogist, 2012, 97, 1417-1420
9001683	CIF	O2 Si	P 42/m n m	4.1773; 4.1773; 2.6652 90; 90; 90	46.507	Smyth, J. R.; Swope, R. J.; Pawley, A. R. H in rutile-type compounds: II. Crystal chemistry of Al substitution in H-bearing stishovite Sample: pure-silica American Mineralogist, 1995, 80, 454-456
9001276	CIF	O2 Si	P 42/m n m	4.1801; 4.1801; 2.6678 90; 90; 90	46.615	Ross, N. L.; Shu, J. F.; Hazen, R. M.; Gasparik, T. High-pressure crystal chemistry of stishovite P = 0, but in the diamond cell American Mineralogist, 1990, 75, 739-747
9001682	CIF	O2 Si	P 42/m n m	4.1839; 4.1839; 2.6684 90; 90; 90	46.71	Smyth, J. R.; Swope, R. J.; Pawley, A. R. H in rutile-type compounds: II. Crystal chemistry of Al substitution in H-bearing stishovite Sample: aluminous American Mineralogist, 1995, 80, 454-456
9017047	CIF	B1.1 N0.9	F -4 3 m	3.61; 3.61; 3.61 90; 90; 90	47.046	Dobrzhinetskaya, L. F.; Wirth, R.; Yang, J.; Green, H. W.; Hutcheon, I. D.; Weber, P. K.; Grew, E. S. Qingsongite, natural cubic boron nitride: The first boron mineral from the Earth's mantle American Mineralogist, 2014, 99, 764-772
9013245	CIF	Mg O	F m -3 m	3.738; 3.738; 3.738 90; 90; 90	52.23	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 111.0 GPa using ruby-scale Note: P = 118.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
1531679	CIF	H1.088 Mn Na0.364 O2.544	P -1	2.9513; 2.9547; 7.334 78.72; 101.79; 122.33	52.611	Lanson, B.; Drits, V.A.; Feng, Q.; Manceau, A. Structure of synthetic Na-birnessite: evidence for a triclinic one-layer unit cell American Mineralogist, 2002, 87, 1662-1671
9002843	CIF	H2.72 Mn0.5 Na0.364 O2.544	P -1	2.9513; 2.9547; 7.334 78.72; 101.79; 122.33	52.611	Lanson, B.; Drits, V. A.; Feng, Q.; Manceau, A. Structure of synthetic Na-rich birnessite: Evidence for a triclinic one-layer unit cell American Mineralogist, 2002, 87, 1662-1671
9013244	CIF	Mg O	F m -3 m	3.748; 3.748; 3.748 90; 90; 90	52.65	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 106.3 GPa using ruby-scale Note: P = 113.8 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013243	CIF	Mg O	F m -3 m	3.758; 3.758; 3.758 90; 90; 90	53.073	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 102.4 GPa using ruby-scale Note: P = 109.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013242	CIF	Mg O	F m -3 m	3.765; 3.765; 3.765 90; 90; 90	53.37	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 99.6 GPa using ruby-scale Note: P = 106.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013185	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6328; 4.1401; 2.7947 90; 90; 90	53.603	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 9.2 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013184	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6357; 4.1434; 2.7961 90; 90; 90	53.706	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 8.9 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013241	CIF	Mg O	F m -3 m	3.773; 3.773; 3.773 90; 90; 90	53.711	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 96.2 GPa using ruby-scale Note: P = 102.9 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013183	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6393; 4.1477; 2.7978 90; 90; 90	53.836	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 8.4 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013182	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6432; 4.1529; 2.8 90; 90; 90	53.992	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 7. 9 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9000112	CIF	Ca H2 O2	P -3 m 1	3.585; 3.585; 4.871 90; 90; 120	54.216	Henderson, D. M.; Gutowsky, H. S. A nuclear magnetic resonance determination of the hydrogen positions in Ca(OH)2 T = -190 C American Mineralogist, 1962, 47, 1231-1251
9013181	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6506; 4.161; 2.8033 90; 90; 90	54.247	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 7.0 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013180	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6601; 4.1711; 2.8076 90; 90; 90	54.573	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 6.0 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013240	CIF	Mg O	F m -3 m	3.794; 3.794; 3.794 90; 90; 90	54.612	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 89.0 GPa using ruby-scale Note: P = 94.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9000113	CIF	Ca H2 O2	P -3 m 1	3.5925; 3.5925; 4.905 90; 90; 120	54.823	Henderson, D. M.; Gutowsky, H. S. A nuclear magnetic resonance determination of the hydrogen positions in Ca(OH)2 T = 25 C American Mineralogist, 1962, 47, 1231-1251
9013179	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6706; 4.1836; 2.8129 90; 90; 90	54.964	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 4.7 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013239	CIF	Mg O	F m -3 m	3.805; 3.805; 3.805 90; 90; 90	55.089	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 85.0 GPa using ruby-scale Note: P = 90.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013178	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6827; 4.1962; 2.8181 90; 90; 90	55.374	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 3.5 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013271	CIF	Mg O	F m -3 m	3.821; 3.821; 3.821 90; 90; 90	55.787	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 86.6 GPa American Mineralogist, 2008, 93, 1823-1828
9013238	CIF	Mg O	F m -3 m	3.822; 3.822; 3.822 90; 90; 90	55.831	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 80.0 GPa using ruby-scale Note: P = 84.0 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013177	CIF	Al D0.744 H0.256 O2	P 21 n m	4.6969; 4.2133; 2.8243 90; 90; 90	55.891	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 2.0 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013270	CIF	Mg O	F m -3 m	3.828; 3.828; 3.828 90; 90; 90	56.094	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 83.5 GPa American Mineralogist, 2008, 93, 1823-1828
9013176	CIF	Al D0.744 H0.256 O2	P 21 n m	4.7112; 4.2284; 2.8296 90; 90; 90	56.368	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 0.6 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013237	CIF	Mg O	F m -3 m	3.837; 3.837; 3.837 90; 90; 90	56.49	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 74.6 GPa using ruby-scale Note: P = 78.9 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013175	CIF	Al D0.744 H0.256 O2	P 21 n m	4.7179; 4.2361; 2.8323 90; 90; 90	56.605	Furukawa, A. S.; Komatsu, K.; Vanpeteghem, C. B.; Ohtani, E. Neutron diffraction study of delta-AlOOD at high pressure and its implication for symmetrization of the hydrogen bond Note: P = 0.0001 GPa Locality: synthetic American Mineralogist, 2008, 93, 1558-1567
9013269	CIF	Mg O	F m -3 m	3.84; 3.84; 3.84 90; 90; 90	56.623	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 80.1 GPa American Mineralogist, 2008, 93, 1823-1828
9013268	CIF	Mg O	F m -3 m	3.851; 3.851; 3.851 90; 90; 90	57.111	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 76.2 GPa American Mineralogist, 2008, 93, 1823-1828
9013236	CIF	Mg O	F m -3 m	3.855; 3.855; 3.855 90; 90; 90	57.289	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 69.6 GPa using ruby-scale Note: P = 72.8 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013267	CIF	Mg O	F m -3 m	3.856; 3.856; 3.856 90; 90; 90	57.334	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 73.9 GPa American Mineralogist, 2008, 93, 1823-1828
9013213	CIF	Mg O	F m -3 m	3.859; 3.859; 3.859 90; 90; 90	57.468	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 68.3 GPa using ruby-scale Note: P = 71.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013235	CIF	Mg O	F m -3 m	3.865; 3.865; 3.865 90; 90; 90	57.736	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 66.5 GPa using ruby-scale Note: P = 69.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013266	CIF	Mg O	F m -3 m	3.865; 3.865; 3.865 90; 90; 90	57.736	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 71.2 GPa American Mineralogist, 2008, 93, 1823-1828
9013212	CIF	Mg O	F m -3 m	3.869; 3.869; 3.869 90; 90; 90	57.916	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 65.6 GPa using ruby-scale Note: P = 68.2 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9017079	CIF	H Mg0.5 O2 Si0.5	P n n m	4.733; 4.325; 2.842 90; 90; 90	58.176	Bindi, L.; Nishi, M.; Tsuchiya, J.; Irifune, T. Crystal chemistry of dense hydrous magnesium silicates: The structure of phase H, MgSiH2O4, synthesized at 45 GPa and 1000 C American Mineralogist, 2014, 99, 1802-1805
9003812	CIF	F3 Mg Na	P m -3 m	3.876; 3.876; 3.876 90; 90; 90	58.231	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 1000 C, high-T polymorph American Mineralogist, 2005, 90, 1534-1539
9013265	CIF	Mg O	F m -3 m	3.876; 3.876; 3.876 90; 90; 90	58.231	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 68.7 GPa American Mineralogist, 2008, 93, 1823-1828
9013211	CIF	Mg O	F m -3 m	3.878; 3.878; 3.878 90; 90; 90	58.321	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 62.8 GPa using ruby-scale Note: P = 65.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013234	CIF	Mg O	F m -3 m	3.878; 3.878; 3.878 90; 90; 90	58.321	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 62.9 GPa using ruby-scale Note: P = 65.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013264	CIF	Mg O	F m -3 m	3.882; 3.882; 3.882 90; 90; 90	58.501	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 65.9 GPa American Mineralogist, 2008, 93, 1823-1828
9013263	CIF	Mg O	F m -3 m	3.889; 3.889; 3.889 90; 90; 90	58.818	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 63.5 GPa American Mineralogist, 2008, 93, 1823-1828
9013210	CIF	Mg O	F m -3 m	3.89; 3.89; 3.89 90; 90; 90	58.864	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 59.5 GPa using ruby-scale Note: P = 61.7 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013233	CIF	Mg O	F m -3 m	3.895; 3.895; 3.895 90; 90; 90	59.091	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 58.4 GPa using ruby-scale Note: P = 60.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013262	CIF	Mg O	F m -3 m	3.899; 3.899; 3.899 90; 90; 90	59.273	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 61.1 GPa American Mineralogist, 2008, 93, 1823-1828
9013209	CIF	Mg O	F m -3 m	3.902; 3.902; 3.902 90; 90; 90	59.41	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 56.1 GPa using ruby-scale Note: P = 58.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013232	CIF	Mg O	F m -3 m	3.906; 3.906; 3.906 90; 90; 90	59.593	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 55.3 GPa using ruby-scale Note: P = 57.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013261	CIF	Mg O	F m -3 m	3.907; 3.907; 3.907 90; 90; 90	59.639	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 58.1 GPa American Mineralogist, 2008, 93, 1823-1828
9013208	CIF	Mg O	F m -3 m	3.913; 3.913; 3.913 90; 90; 90	59.914	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 53.0 GPa using ruby-scale Note: P = 55.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013260	CIF	Mg O	F m -3 m	3.916; 3.916; 3.916 90; 90; 90	60.052	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 55.9 GPa American Mineralogist, 2008, 93, 1823-1828
9013231	CIF	Mg O	F m -3 m	3.92; 3.92; 3.92 90; 90; 90	60.236	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 51.0 GPa using ruby-scale Note: P = 53.2 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013207	CIF	Mg O	F m -3 m	3.924; 3.924; 3.924 90; 90; 90	60.421	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 49.7 GPa using ruby-scale Note: P = 52.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013259	CIF	Mg O	F m -3 m	3.926; 3.926; 3.926 90; 90; 90	60.513	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 53.5 GPa American Mineralogist, 2008, 93, 1823-1828
9013258	CIF	Mg O	F m -3 m	3.93; 3.93; 3.93 90; 90; 90	60.698	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 52.2 GPa American Mineralogist, 2008, 93, 1823-1828
9016865	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9364; 3.9364; 3.9364 90; 90; 90	60.995	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 55.09 GPa American Mineralogist, 2012, 97, 176-183
9016829	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9365; 3.9365; 3.9365 90; 90; 90	61	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 52.98 GPa American Mineralogist, 2012, 97, 176-183
9013206	CIF	Mg O	F m -3 m	3.937; 3.937; 3.937 90; 90; 90	61.023	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 46.9 GPa using ruby-scale Note: P = 48.7 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013230	CIF	Mg O	F m -3 m	3.937; 3.937; 3.937 90; 90; 90	61.023	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 46.8 GPa using ruby-scale Note: P = 48.7 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016878	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9399; 3.9399; 3.9399 90; 90; 90	61.158	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 57.85 GPa American Mineralogist, 2012, 97, 176-183
9016840	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9414; 3.9414; 3.9414 90; 90; 90	61.228	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 54.52 GPa American Mineralogist, 2012, 97, 176-183
9013257	CIF	Mg O	F m -3 m	3.942; 3.942; 3.942 90; 90; 90	61.256	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 49.1 GPa American Mineralogist, 2008, 93, 1823-1828
9016828	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9459; 3.9459; 3.9459 90; 90; 90	61.438	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 51.31 GPa American Mineralogist, 2012, 97, 176-183
9000615	CIF	S2 Sn	P -3 m 1	3.605; 3.605; 5.46 90; 90; 120	61.452	Hazen, R. M.; Finger, L. W. The crystal structures and compressibilities of layer minerals at high pressure. I. SnS2, berndtite P = 30 kbar American Mineralogist, 1978, 63, 289-292
9013229	CIF	Mg O	F m -3 m	3.948; 3.948; 3.948 90; 90; 90	61.536	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 43.7 GPa using ruby-scale Note: P = 45.9 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016851	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9481; 3.9481; 3.9481 90; 90; 90	61.541	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 55.47 GPa American Mineralogist, 2012, 97, 176-183
9016839	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.951; 3.951; 3.951 90; 90; 90	61.677	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 52.70 GPa American Mineralogist, 2012, 97, 176-183
9013205	CIF	Mg O	F m -3 m	3.952; 3.952; 3.952 90; 90; 90	61.724	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 42.9 GPa using ruby-scale Note: P = 44.8 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016864	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9525; 3.9525; 3.9525 90; 90; 90	61.747	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 52.35 GPa American Mineralogist, 2012, 97, 176-183
9016827	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.957; 3.957; 3.957 90; 90; 90	61.958	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 48.91 GPa American Mineralogist, 2012, 97, 176-183
9016877	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9576; 3.9576; 3.9576 90; 90; 90	61.986	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 54.28 GPa American Mineralogist, 2012, 97, 176-183
9016850	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9581; 3.9581; 3.9581 90; 90; 90	62.01	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 53.53 GPa American Mineralogist, 2012, 97, 176-183
9016890	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9602; 3.9602; 3.9602 90; 90; 90	62.109	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 55.52 GPa American Mineralogist, 2012, 97, 176-183
9001679	CIF	Al0.011 Cr0.012 Fe0.008 H0.108 Nb0.011 O2 Ti0.96	P 42/m n m	4.587; 4.587; 2.954 90; 90; 90	62.154	Swope, R. J.; Smyth, J. R.; Larson, A. C. H in rutile-type compounds: I. Single-crystal neutron and X-ray diffraction study of H in rutile Sample: neutron; natural, T = 24 K American Mineralogist, 1995, 80, 448-453
9016838	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9613; 3.9613; 3.9613 90; 90; 90	62.16	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 50.40 GPa American Mineralogist, 2012, 97, 176-183
9013204	CIF	Mg O	F m -3 m	3.964; 3.964; 3.964 90; 90; 90	62.288	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 40.4 GPa using ruby-scale Note: P = 42.0 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9001681	CIF	O2 Ti0.992	P 42/m n m	4.5922; 4.5922; 2.9574 90; 90; 90	62.367	Swope, R. J.; Smyth, J. R.; Larson, A. C. H in rutile-type compounds: I. Single-crystal neutron and X-ray diffraction study of H in rutile Sample: X-ray; synthetic, T = 300 K American Mineralogist, 1995, 80, 448-453
9013228	CIF	Mg O	F m -3 m	3.967; 3.967; 3.967 90; 90; 90	62.429	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 40.1 GPa using ruby-scale Note: P = 41.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9001680	CIF	Al0.08 Cr0.01 Nb0.01 O2 Ti0.91	P 42/m n m	4.594; 4.594; 2.9586 90; 90; 90	62.441	Swope, R. J.; Smyth, J. R.; Larson, A. C. H in rutile-type compounds: I. Single-crystal neutron and X-ray diffraction study of H in rutile Sample: X-ray; natural, T = 300 K American Mineralogist, 1995, 80, 448-453
9016826	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9673; 3.9673; 3.9673 90; 90; 90	62.443	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 46.39 GPa American Mineralogist, 2012, 97, 176-183
9016849	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9676; 3.9676; 3.9676 90; 90; 90	62.457	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 51.61 GPa American Mineralogist, 2012, 97, 176-183
9013256	CIF	Mg O	F m -3 m	3.97; 3.97; 3.97 90; 90; 90	62.571	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 41.4 GPa American Mineralogist, 2008, 93, 1823-1828
9016837	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9708; 3.9708; 3.9708 90; 90; 90	62.609	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 48.26 GPa American Mineralogist, 2012, 97, 176-183
9016863	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9717; 3.9717; 3.9717 90; 90; 90	62.651	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 48.08 GPa American Mineralogist, 2012, 97, 176-183
9016876	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9743; 3.9743; 3.9743 90; 90; 90	62.774	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 50.28 GPa American Mineralogist, 2012, 97, 176-183
9013203	CIF	Mg O	F m -3 m	3.977; 3.977; 3.977 90; 90; 90	62.902	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 37.6 GPa using ruby-scale Note: P = 39.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016848	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9775; 3.9775; 3.9775 90; 90; 90	62.926	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 49.32 GPa American Mineralogist, 2012, 97, 176-183
9016889	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9786; 3.9786; 3.9786 90; 90; 90	62.978	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 51.42 GPa American Mineralogist, 2012, 97, 176-183
9016825	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9812; 3.9812; 3.9812 90; 90; 90	63.102	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 43.04 GPa American Mineralogist, 2012, 97, 176-183
9013227	CIF	Mg O	F m -3 m	3.983; 3.983; 3.983 90; 90; 90	63.187	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 36.5 GPa using ruby-scale Note: P = 37.6 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016836	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9855; 3.9855; 3.9855 90; 90; 90	63.307	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 44.55 GPa American Mineralogist, 2012, 97, 176-183
1565134	CIF	Al0.01 Ba0.09 Ce0.08 Cr0.19 Fe0.05 K0.5 La0.15 Mg0.04 Nb0.7 O3 Sr0.13 Ti0.01	P m -3 m	3.9876; 3.9876; 3.9876 90; 90; 90	63.407	Meyer, N.A.; Wenz, M.D.; Walsh, J.P.S.; Jacobsen, S.D.; Locock, A.J.; Harris, J.W. Goldschmidtite, (K,REE,Sr)(Nb,Cr)O3: A new perovskite supergroup mineral found in diamond from Koffefontein, South Africa American Mineralogist, 2019, 104, 1345-1350
9016862	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9877; 3.9877; 3.9877 90; 90; 90	63.411	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 44.23 GPa American Mineralogist, 2012, 97, 176-183
9016875	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9908; 3.9908; 3.9908 90; 90; 90	63.559	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 46.21 GPa American Mineralogist, 2012, 97, 176-183
9013255	CIF	Mg O	F m -3 m	3.991; 3.991; 3.991 90; 90; 90	63.569	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 36.6 GPa American Mineralogist, 2008, 93, 1823-1828
9016847	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9911; 3.9911; 3.9911 90; 90; 90	63.574	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 45.80 GPa American Mineralogist, 2012, 97, 176-183
1532825	CIF	Nb0.048 O2 Ti0.952	P 42/m n m	4.622; 4.622; 2.9763 90; 90; 90	63.582	Okrusch, M.; Hock, R.; Schuessler, U.; Brummer, A.; Baier, M.; Theisinger, H. Intergrown niobian rutile phases with Sc- and W-rich ferrocolumbite: an electron-microprobe and Rietveld study American Mineralogist, 2003, 88, 986-995
9013202	CIF	Mg O	F m -3 m	3.992; 3.992; 3.992 90; 90; 90	63.617	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 34.5 GPa using ruby-scale Note: P = 35.5 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
1532819	CIF	O2 Ti	P 42/m n m	4.6257; 4.6257; 2.9806 90; 90; 90	63.776	Okrusch, M.; Schuessler, U.; Hock, R.; Brummer, A.; Theisinger, H.; Baier, M. Intergrown niobian rutile phases with Sc- and W-rich ferrocolumbite: an electron-microprobe and Rietveld study American Mineralogist, 2003, 88, 986-995
9016824	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9962; 3.9962; 3.9962 90; 90; 90	63.818	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 39.40 GPa American Mineralogist, 2012, 97, 176-183
9016888	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9972; 3.9972; 3.9972 90; 90; 90	63.866	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 47.43 GPa American Mineralogist, 2012, 97, 176-183
9016835	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0014; 4.0014; 4.0014 90; 90; 90	64.067	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 40.83 GPa American Mineralogist, 2012, 97, 176-183
1532822	CIF	Nb0.16 O2 Ti0.84	P 42/m n m	4.6342; 4.6342; 2.9886 90; 90; 90	64.183	Okrusch, M.; Schuessler, U.; Hock, R.; Theisinger, H.; Baier, M.; Brummer, A. Intergrown niobian rutile phases with Sc- and W-rich ferrocolumbite: an electron-microprobe and Rietveld study American Mineralogist, 2003, 88, 986-995
9016861	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0044; 4.0044; 4.0044 90; 90; 90	64.211	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 40.01 GPa American Mineralogist, 2012, 97, 176-183
9000614	CIF	S2 Sn	P -3 m 1	3.616; 3.616; 5.68 90; 90; 120	64.318	Hazen, R. M.; Finger, L. W. The crystal structures and compressibilities of layer minerals at high pressure. I. SnS2, berndtite P = 12 kbar American Mineralogist, 1978, 63, 289-292
9016846	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0069; 4.0069; 4.0069 90; 90; 90	64.332	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 42.17 GPa American Mineralogist, 2012, 97, 176-183
9016874	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0072; 4.0072; 4.0072 90; 90; 90	64.346	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 42.01 GPa American Mineralogist, 2012, 97, 176-183
1532816	CIF	Nb0.288 O2 Ti0.712	P 42/m n m	4.6392; 4.6392; 2.9902 90; 90; 90	64.356	Okrusch, M.; Theisinger, H.; Hock, R.; Schuessler, U.; Brummer, A.; Baier, M. Intergrown niobian rutile phases with Sc- and W-rich ferrocolumbite: an electron-microprobe and Rietveld study American Mineralogist, 2003, 88, 986-995
9013226	CIF	Mg O	F m -3 m	4.011; 4.011; 4.011 90; 90; 90	64.529	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 30.6 GPa using ruby-scale Note: P = 31.5 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016887	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0122; 4.0122; 4.0122 90; 90; 90	64.587	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 43.63 GPa American Mineralogist, 2012, 97, 176-183
9016823	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0145; 4.0145; 4.0145 90; 90; 90	64.699	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 35.19 GPa American Mineralogist, 2012, 97, 176-183
9016860	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0148; 4.0148; 4.0148 90; 90; 90	64.713	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 37.59 GPa American Mineralogist, 2012, 97, 176-183
9013254	CIF	Mg O	F m -3 m	4.015; 4.015; 4.015 90; 90; 90	64.723	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 31.1 GPa American Mineralogist, 2008, 93, 1823-1828
9013201	CIF	Mg O	F m -3 m	4.017; 4.017; 4.017 90; 90; 90	64.819	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 29.9 GPa using ruby-scale Note: P = 30.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016873	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0179; 4.0179; 4.0179 90; 90; 90	64.863	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 39.67 GPa American Mineralogist, 2012, 97, 176-183
9016834	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.021; 4.021; 4.021 90; 90; 90	65.013	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 36.52 GPa American Mineralogist, 2012, 97, 176-183
9016886	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0244; 4.0244; 4.0244 90; 90; 90	65.178	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 41.10 GPa American Mineralogist, 2012, 97, 176-183
9016845	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0251; 4.0251; 4.0251 90; 90; 90	65.212	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 38.32 GPa American Mineralogist, 2012, 97, 176-183
9013200	CIF	Mg O	F m -3 m	4.026; 4.026; 4.026 90; 90; 90	65.256	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 28.1 GPa using ruby-scale Note: P = 28.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016859	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0269; 4.0269; 4.0269 90; 90; 90	65.3	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 34.79 GPa American Mineralogist, 2012, 97, 176-183
9013220	CIF	Mg O	F m -3 m	4.029; 4.029; 4.029 90; 90; 90	65.402	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 27.4 GPa using ruby-scale Note: P = 27.8 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016872	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0318; 4.0318; 4.0318 90; 90; 90	65.539	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 36.52 GPa American Mineralogist, 2012, 97, 176-183
9016885	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0352; 4.0352; 4.0352 90; 90; 90	65.705	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 38.72 GPa American Mineralogist, 2012, 97, 176-183
9016822	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0369; 4.0369; 4.0369 90; 90; 90	65.788	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 30.25 GPa American Mineralogist, 2012, 97, 176-183
9013253	CIF	Mg O	F m -3 m	4.037; 4.037; 4.037 90; 90; 90	65.792	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 26.9 GPa American Mineralogist, 2008, 93, 1823-1828
9016858	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.041; 4.041; 4.041 90; 90; 90	65.988	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 31.78 GPa American Mineralogist, 2012, 97, 176-183
9016833	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0423; 4.0423; 4.0423 90; 90; 90	66.052	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 32.06 GPa American Mineralogist, 2012, 97, 176-183
9016871	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0442; 4.0442; 4.0442 90; 90; 90	66.145	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 33.92 GPa American Mineralogist, 2012, 97, 176-183
9013225	CIF	Mg O	F m -3 m	4.047; 4.047; 4.047 90; 90; 90	66.283	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 23.9 GPa using ruby-scale Note: P = 24.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016844	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0489; 4.0489; 4.0489 90; 90; 90	66.376	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 33.12 GPa American Mineralogist, 2012, 97, 176-183
9013199	CIF	Mg O	F m -3 m	4.051; 4.051; 4.051 90; 90; 90	66.479	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 23.4 GPa using ruby-scale Note: P = 23.6 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016884	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0515; 4.0515; 4.0515 90; 90; 90	66.504	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 35.29 GPa American Mineralogist, 2012, 97, 176-183
9013219	CIF	Mg O	F m -3 m	4.055; 4.055; 4.055 90; 90; 90	66.676	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 22.6 GPa using ruby-scale Note: P = 23.0 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013252	CIF	Mg O	F m -3 m	4.058; 4.058; 4.058 90; 90; 90	66.825	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 22.8 GPa American Mineralogist, 2008, 93, 1823-1828
9016857	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.059; 4.059; 4.059 90; 90; 90	66.874	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 28.32 GPa American Mineralogist, 2012, 97, 176-183
9000030	CIF	Ni Te2	P -3 m 1	3.835; 3.835; 5.255 90; 90; 120	66.932	Peacock, M. A.; Thompson, R. M. On melonite from Quebec and the crystal structure of NiTe2 American Mineralogist, 1946, 31, 204-204
9016870	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0634; 4.0634; 4.0634 90; 90; 90	67.092	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 30.14 GPa American Mineralogist, 2012, 97, 176-183
9016821	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0654; 4.0654; 4.0654 90; 90; 90	67.191	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 24.85 GPa American Mineralogist, 2012, 97, 176-183
9016883	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0689; 4.0689; 4.0689 90; 90; 90	67.364	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 31.64 GPa American Mineralogist, 2012, 97, 176-183
9000613	CIF	S2 Sn	P -3 m 1	3.638; 3.638; 5.88 90; 90; 120	67.396	Hazen, R. M.; Finger, L. W. The crystal structures and compressibilities of layer minerals at high pressure. I. SnS2, berndtite P = 1 atm American Mineralogist, 1978, 63, 289-292
9016832	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0707; 4.0707; 4.0707 90; 90; 90	67.454	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 26.22 GPa American Mineralogist, 2012, 97, 176-183
1539166	CIF	Hg Pd	P 4/m m m	4.2716; 4.2716; 3.7067 90; 90; 90	67.635	Terada, K.; Cagle, F.W.jr. Crystal structure of potarite, Pd Hg, with comments on allopalladium American Mineralogist, 1960, 45, 1093-1097
9013218	CIF	Mg O	F m -3 m	4.078; 4.078; 4.078 90; 90; 90	67.817	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 18.6 GPa using ruby-scale Note: P = 18.9 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016843	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0785; 4.0785; 4.0785 90; 90; 90	67.842	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 27.50 GPa American Mineralogist, 2012, 97, 176-183
9013251	CIF	Mg O	F m -3 m	4.079; 4.079; 4.079 90; 90; 90	67.867	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 18.9 GPa American Mineralogist, 2008, 93, 1823-1828
9013198	CIF	Mg O	F m -3 m	4.08; 4.08; 4.08 90; 90; 90	67.917	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 18.2 GPa using ruby-scale Note: P = 18.5 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013224	CIF	Mg O	F m -3 m	4.081; 4.081; 4.081 90; 90; 90	67.967	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 17.8 GPa using ruby-scale Note: P = 18.3 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9000564	CIF	Ni3 S2	R 3 2 :R	4.0821; 4.0821; 4.0821 89.475; 89.475; 89.475	68.014	Fleet, M. E. The crystal structure of heazlewoodite, and metallic bonds in sulfide minerals American Mineralogist, 1977, 62, 341-345
9016856	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0824; 4.0824; 4.0824 90; 90; 90	68.037	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 23.83 GPa American Mineralogist, 2012, 97, 176-183
9016869	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0867; 4.0867; 4.0867 90; 90; 90	68.252	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 25.78 GPa American Mineralogist, 2012, 97, 176-183
9016882	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0925; 4.0925; 4.0925 90; 90; 90	68.543	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 27.45 GPa American Mineralogist, 2012, 97, 176-183
9013250	CIF	Mg O	F m -3 m	4.096; 4.096; 4.096 90; 90; 90	68.719	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 16.2 GPa American Mineralogist, 2008, 93, 1823-1828
9013197	CIF	Mg O	F m -3 m	4.097; 4.097; 4.097 90; 90; 90	68.77	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 15.3 GPa using ruby-scale Note: P = 15.7 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016820	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1049; 4.1049; 4.1049 90; 90; 90	69.168	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 17.63 GPa American Mineralogist, 2012, 97, 176-183
9016855	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1101; 4.1101; 4.1101 90; 90; 90	69.432	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 18.85 GPa American Mineralogist, 2012, 97, 176-183
9013217	CIF	Mg O	F m -3 m	4.111; 4.111; 4.111 90; 90; 90	69.477	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 13.3 GPa using ruby-scale Note: P = 13.5 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016831	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1113; 4.1113; 4.1113 90; 90; 90	69.492	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 19.50 GPa American Mineralogist, 2012, 97, 176-183
9013249	CIF	Mg O	F m -3 m	4.114; 4.114; 4.114 90; 90; 90	69.629	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 13.5 GPa American Mineralogist, 2008, 93, 1823-1828
9016868	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1158; 4.1158; 4.1158 90; 90; 90	69.721	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 20.51 GPa American Mineralogist, 2012, 97, 176-183
9013196	CIF	Mg O	F m -3 m	4.118; 4.118; 4.118 90; 90; 90	69.833	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 12.2 GPa using ruby-scale Note: P = 12.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016842	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1187; 4.1187; 4.1187 90; 90; 90	69.868	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 20.82 GPa American Mineralogist, 2012, 97, 176-183
9013223	CIF	Mg O	F m -3 m	4.119; 4.119; 4.119 90; 90; 90	69.884	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 11.6 GPa using ruby-scale Note: P = 12.1 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9000046	CIF	C	F m m m	2.456; 4.254; 6.696 90; 90; 90	69.959	Kukesh, J. S.; Pauling, L. The problem of the graphite structure American Mineralogist, 1950, 35, 125-125
9016881	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1211; 4.1211; 4.1211 90; 90; 90	69.991	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 22.46 GPa American Mineralogist, 2012, 97, 176-183
9013216	CIF	Mg O	F m -3 m	4.123; 4.123; 4.123 90; 90; 90	70.087	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 11.5 GPa using ruby-scale Note: P = 11.7 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013248	CIF	Mg O	F m -3 m	4.133; 4.133; 4.133 90; 90; 90	70.599	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 10.6 GPa American Mineralogist, 2008, 93, 1823-1828
9016854	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.143; 4.143; 4.143 90; 90; 90	71.112	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 13.05 GPa American Mineralogist, 2012, 97, 176-183
9013195	CIF	Mg O	F m -3 m	4.144; 4.144; 4.144 90; 90; 90	71.164	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 8.5 GPa using ruby-scale Note: P = 8.5 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013215	CIF	Mg O	F m -3 m	4.144; 4.144; 4.144 90; 90; 90	71.164	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 8.4 GPa using ruby-scale Note: P = 8.6 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9013222	CIF	Mg O	F m -3 m	4.145; 4.145; 4.145 90; 90; 90	71.215	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 7.9 GPa using ruby-scale Note: P = 8.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016867	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.145; 4.145; 4.145 90; 90; 90	71.215	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 15.12 GPa American Mineralogist, 2012, 97, 176-183
9016819	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1506; 4.1506; 4.1506 90; 90; 90	71.504	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 10.62 GPa American Mineralogist, 2012, 97, 176-183
9016880	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1545; 4.1545; 4.1545 90; 90; 90	71.706	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 16.80 GPa American Mineralogist, 2012, 97, 176-183
9013247	CIF	Mg O	F m -3 m	4.156; 4.156; 4.156 90; 90; 90	71.784	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 7.4 GPa American Mineralogist, 2008, 93, 1823-1828
9013214	CIF	Mg O	F m -3 m	4.158; 4.158; 4.158 90; 90; 90	71.888	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 6.5 GPa using ruby-scale Note: P = 6.6 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016830	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1581; 4.1581; 4.1581 90; 90; 90	71.893	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 12.11 GPa American Mineralogist, 2012, 97, 176-183
9016841	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1676; 4.1676; 4.1676 90; 90; 90	72.387	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 13.45 GPa American Mineralogist, 2012, 97, 176-183
9016853	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1714; 4.1714; 4.1714 90; 90; 90	72.585	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 8.96 GPa American Mineralogist, 2012, 97, 176-183
9013221	CIF	Mg O	F m -3 m	4.175; 4.175; 4.175 90; 90; 90	72.773	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 4.3 GPa using ruby-scale Note: P = 4.4 GPa using MgO-scale American Mineralogist, 2008, 93, 1823-1828
9016866	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1782; 4.1782; 4.1782 90; 90; 90	72.94	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 10.94 GPa American Mineralogist, 2012, 97, 176-183
9013246	CIF	Mg O	F m -3 m	4.181; 4.181; 4.181 90; 90; 90	73.087	Jacobsen, S. D.; Holl, C. M.; Adams, K. A.; Fischer, R. A.; Martin, E. S.; Bina, C. R.; Lin, J. F.; Prakapenka, V. B.; Kubo, A.; Dera, P. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media Note: P = 3.6 GPa American Mineralogist, 2008, 93, 1823-1828
9016879	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1874; 4.1874; 4.1874 90; 90; 90	73.423	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 12.27 GPa American Mineralogist, 2012, 97, 176-183
9000504	CIF	Mg O	F m -3 m	4.193; 4.193; 4.193 90; 90; 90	73.718	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 23 C, P = 24 kbar American Mineralogist, 1976, 61, 266-271
9000503	CIF	Mg O	F m -3 m	4.198; 4.198; 4.198 90; 90; 90	73.982	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 23 C, P = 17 kbar American Mineralogist, 1976, 61, 266-271
9000500	CIF	Mg O	F m -3 m	4.203; 4.203; 4.203 90; 90; 90	74.247	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = -196 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9000499	CIF	Mg O	F m -3 m	4.208; 4.208; 4.208 90; 90; 90	74.512	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 23 C, P = 1 atm, mounted on a cryo-tip with Be shroud American Mineralogist, 1976, 61, 266-271
9000490	CIF	Mg O	F m -3 m	4.211; 4.211; 4.211 90; 90; 90	74.672	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 24 C, P = 1 atm, standard mount American Mineralogist, 1976, 61, 266-271
9000501	CIF	Mg O	F m -3 m	4.212; 4.212; 4.212 90; 90; 90	74.725	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 23 C, P = 1 atm, in a high-pressure cell with absorption curve #1 American Mineralogist, 1976, 61, 266-271
9000492	CIF	Mg O	F m -3 m	4.217; 4.217; 4.217 90; 90; 90	74.991	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 150 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9000493	CIF	Mg O	F m -3 m	4.225; 4.225; 4.225 90; 90; 90	75.419	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 300 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9000494	CIF	Mg O	F m -3 m	4.233; 4.233; 4.233 90; 90; 90	75.848	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 450 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9016818	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.2331; 4.2331; 4.2331 90; 90; 90	75.853	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 0.0 GPa American Mineralogist, 2012, 97, 176-183
9017114	CIF	C Ca0.04 Mn0.96 O3	P -1	2.928; 4.816; 5.545 101.71; 94.99; 89.9	76.264	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p11a Note: P = 46.79 GPa American Mineralogist, 2015, 100, 2625-2629
9000495	CIF	Mg O	F m -3 m	4.241; 4.241; 4.241 90; 90; 90	76.279	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 605 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9016852	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.2426; 4.2426; 4.2426 90; 90; 90	76.365	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 0.0 GPa American Mineralogist, 2012, 97, 176-183
9000496	CIF	Mg O	F m -3 m	4.249; 4.249; 4.249 90; 90; 90	76.711	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 753 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9017115	CIF	C Ca0.04 Mn0.96 O3	P -1	2.934; 4.839; 5.557 101.87; 95.29; 89.73	76.872	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p12 Note: P = 44.01 GPa American Mineralogist, 2015, 100, 2625-2629
9000497	CIF	Mg O	F m -3 m	4.257; 4.257; 4.257 90; 90; 90	77.146	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 915 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9017113	CIF	C Ca0.04 Mn0.96 O3	P -1	2.936; 4.841; 5.568 100.82; 94.93; 90.18	77.429	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p11 Note: P = 44.46 GPa American Mineralogist, 2015, 100, 2625-2629
9000498	CIF	Mg O	F m -3 m	4.264; 4.264; 4.264 90; 90; 90	77.527	Hazen, R. M. Effects of temperature and pressure on the cell dimension and X-ray temperature factors of periclase T = 1042 C, P = 1 atm American Mineralogist, 1976, 61, 266-271
9017116	CIF	C Ca0.04 Mn0.96 O3	P -1	2.94; 4.856; 5.584 101.99; 95.58; 89.65	77.604	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p13 Note: P = 41.55 GPa American Mineralogist, 2015, 100, 2625-2629
9017117	CIF	C Ca0.04 Mn0.96 O3	P -1	2.9539; 4.843; 5.588 101.78; 95.09; 90.45	77.921	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p14 Note: P = 35.67 GPa American Mineralogist, 2015, 100, 2625-2629
1523756	CIF	Pt Te	P 63/m m c	4.111; 4.111; 5.446 90; 90; 120	79.708	Groeneveld Meijer, W.O.J. Niggliite, a monotelluride of platinum American Mineralogist, 1955, 40, 693-696
9015335	CIF	Fe0.46 Mg0.04 Mn0.16 S Zn0.32	P 63 m c	3.8357; 3.8357; 6.3002 90; 90; 120	80.274	Ma, C.; Beckett, J. R.; Rossman, G. R. Buseckite, (Fe,Zn,Mn)S, a new mineral from the Zaklodzie meteorite American Mineralogist, 2012, 97, 1226-1233
9000005	CIF	Fe S2	P m n n	3.37; 4.44; 5.39 90; 90; 90	80.649	Buerger, M. J. The crystal structure of marcasite American Mineralogist, 1931, 16, 361-395
9014069	CIF	Al1.33 Fe0.21 Mg0.16 O6 Si0.91	P -3 1 m	4.7621; 4.7621; 4.2964 90; 90; 120	84.379	Boffa Ballaran, T.; Frost, D. J.; Miyajima, N.; Heidelbach, F. The structure of a super-aluminous version of the dense hydrous-magnesium silicate phase D American Mineralogist, 2010, 95, 1113-1116
9001848	CIF	H2.22 Mg1.11 O6 Si1.89	P -3 1 m	4.7453; 4.7453; 4.345 90; 90; 120	84.732	Yang, H.; Prewitt, C. T.; Frost, D. J. Crystal structure of the dense hydrous magnesium silicate, phase D American Mineralogist, 1997, 82, 651-654
9003877	CIF	H2 Mg O2	P -3	4.5804; 4.5804; 4.8435 90; 90; 120	88.003	Mookherjee, M.; Stixrude, L. High-pressure proton disorder in brucite Sample: P = 119.1 GPa Note: cell adjusted to match Figure 2 American Mineralogist, 2006, 91, 127-134
9002782	CIF	O2 Si	P b c n	4.097; 5.0462; 4.4946 90; 90; 90	92.923	Dera, P.; Prewitt, C. T.; Boctor, N. Z.; Hemley, R. J. Characterization of a high-pressure phase of silica from the Martian meteorite Shergotty alpha-PbO2-like American Mineralogist, 2002, 87, 1018-1023
9017020	CIF	O2 Pb	P n a m	5.083; 6.046; 3.152 90; 90; 90	96.867	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 140 GPa American Mineralogist, 2014, 99, 170-177
9000044	CIF	Cu1.4 Te	P 4/n m m :1	3.98; 3.98; 6.12 90; 90; 90	96.943	Forman, S. A.; Peacock, M. A. Crystal structure of rickardite, Cu4-xTe2 American Mineralogist, 1949, 34, 441-451
9017019	CIF	O2 Pb	P n a m	5.128; 6.108; 3.183 90; 90; 90	99.697	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 120 GPa American Mineralogist, 2014, 99, 170-177
9000780	CIF	O2 Si	P 32 2 1	4.702; 4.702; 5.256 90; 90; 120	100.636	Levien, L.; Prewitt, C. T.; Weidner, D. J. Structure and elastic properties of quartz at pressure P = 61.4 kbar American Mineralogist, 1980, 65, 920-930
9001271	CIF	H0.6 Mg0.144 Mn O2.85	C 1 2/m 1	5.05; 2.846; 7.054 90; 96.63; 90	100.704	Post, J. E.; Veblen, D. R. Crystal structure determinations of synthetic sodium, magnesium and potassium birnessite using TEM and the Rietveld method Sample: Mg-birn American Mineralogist, 1990, 75, 477-489
9000779	CIF	O2 Si	P 32 2 1	4.722; 4.722; 5.267 90; 90; 120	101.706	Levien, L.; Prewitt, C. T.; Weidner, D. J. Structure and elastic properties of quartz at pressure P = 55.8 kbar American Mineralogist, 1980, 65, 920-930
9000778	CIF	O2 Si	P 32 2 1	4.739; 4.739; 5.279 90; 90; 120	102.673	Levien, L.; Prewitt, C. T.; Weidner, D. J. Structure and elastic properties of quartz at pressure P = 48.6 kbar American Mineralogist, 1980, 65, 920-930
9001272	CIF	H3.7 K0.23 Mn O2.7	C 1 2/m 1	5.149; 2.843; 7.176 90; 100.76; 90	103.2	Post, J. E.; Veblen, D. R. Crystal structure determinations of synthetic sodium, magnesium and potassium birnessite using TEM and the Rietveld method Sample: K-birn American Mineralogist, 1990, 75, 477-489
9017018	CIF	O2 Pb	P n a m	5.215; 6.167; 3.211 90; 90; 90	103.269	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 105 GPa American Mineralogist, 2014, 99, 170-177
9010156	CIF	H4 K0.23 Mn O2.776	C -1	5.1371; 2.8476; 7.2131 89.96; 100.75; 89.702	103.663	Lopano, C. L.; Heaney, P. J.; Post, J. E.; Hanson, J.; Komarneni, S. Time-resolved structural analysis of K-and Ba-exchange reactions with synthetic Na-birnessite using synchrotron X-ray diffraction Locality: synthetic Sample: K-birnessite American Mineralogist, 2007, 92, 380-387
9000777	CIF	O2 Si	P 32 2 1	4.7736; 4.7736; 5.301 90; 90; 120	104.612	Levien, L.; Prewitt, C. T.; Weidner, D. J. Structure and elastic properties of quartz at pressure P = 37.6 kbar American Mineralogist, 1980, 65, 920-930
9010157	CIF	Ba0.145 H4 Mn O2.444	C -1	5.1711; 2.8476; 7.3076 89.516; 102.957; 89.897	104.862	Lopano, C. L.; Heaney, P. J.; Post, J. E.; Hanson, J.; Komarneni, S. Time-resolved structural analysis of K-and Ba-exchange reactions with synthetic Na-birnessite using synchrotron X-ray diffraction Locality: synthetic Sample: Ba-birnessite American Mineralogist, 2007, 92, 380-387
9017017	CIF	O2 Pb	P n a m	5.246; 6.194; 3.228 90; 90; 90	104.89	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 93 GPa American Mineralogist, 2014, 99, 170-177
9001270	CIF	H3.7 Mn Na0.29 O2.75	C 1 2/m 1	5.174; 2.85; 7.336 90; 103.18; 90	105.326	Post, J. E.; Veblen, D. R. Crystal structure determinations of synthetic sodium, magnesium and potassium birnessite using TEM and the Rietveld method sample is Na-birn American Mineralogist, 1990, 75, 477-489
9010155	CIF	H4 Mn Na0.29 O2.691	C -1	5.178; 2.8509; 7.3344 89.45; 103.18; 89.91	105.412	Lopano, C. L.; Heaney, P. J.; Post, J. E.; Hanson, J.; Komarneni, S. Time-resolved structural analysis of K-and Ba-exchange reactions with synthetic Na-birnessite using synchrotron X-ray diffraction Locality: synthetic Sample: Na-birnessite American Mineralogist, 2007, 92, 380-387
9013650	CIF	H4.108 Mn O4.054	C -1	5.1342; 2.8469; 7.4815 90.31; 101.559; 89.944	107.134	Lopano, C. L.; Heaney, P. J.; Post, J. E. Cs-exchange in birnessite: Reaction mechanisms inferred from time-resolved X-ray diffraction and transmission electron microscopy Note: Solution concentration 0.001 M Note: Occupancies of the Oint sites are undetermined, O is used only as a scatterer American Mineralogist, 2009, 94, 816-826
9013651	CIF	H4.344 Mn O4.172	C -1	5.1298; 2.8445; 7.5029 90.12; 101.395; 89.958	107.322	Lopano, C. L.; Heaney, P. J.; Post, J. E. Cs-exchange in birnessite: Reaction mechanisms inferred from time-resolved X-ray diffraction and transmission electron microscopy Note: Solution concentration 0.01 M Note: Occupancies of the Oint sites are undetermined, O is used only as a scatterer American Mineralogist, 2009, 94, 816-826
9013652	CIF	H4.424 Mn O4.212	C -1	5.1349; 2.8465; 7.5135 89.94; 101.561; 89.997	107.593	Lopano, C. L.; Heaney, P. J.; Post, J. E. Cs-exchange in birnessite: Reaction mechanisms inferred from time-resolved X-ray diffraction and transmission electron microscopy Note: Solution concentration 0.05 M Note: Occupancies of the Oint sites are undetermined, O is used only as a scatterer American Mineralogist, 2009, 94, 816-826
9017016	CIF	O2 Pb	P n a m	5.298; 6.239; 3.269 90; 90; 90	108.054	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 75.1 GPa American Mineralogist, 2014, 99, 170-177
9000776	CIF	O2 Si	P 32 2 1	4.8362; 4.8362; 5.3439 90; 90; 120	108.242	Levien, L.; Prewitt, C. T.; Weidner, D. J. Structure and elastic properties of quartz at pressure P = 20.7 kbar American Mineralogist, 1980, 65, 920-930
9003876	CIF	H2 Mg O2	P -3	5.3498; 5.3498; 4.4014 90; 90; 120	109.093	Mookherjee, M.; Stixrude, L. High-pressure proton disorder in brucite Sample: P = 8.4 GPa Note: cell adjusted to match Figure 2 American Mineralogist, 2006, 91, 127-134
9017015	CIF	O2 Pb	P n a m	5.343; 6.29; 3.295 90; 90; 90	110.737	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 62.7 GPa American Mineralogist, 2014, 99, 170-177
9000775	CIF	O2 Si	P 32 2 1	4.916; 4.916; 5.4054 90; 90; 120	113.131	Levien, L.; Prewitt, C. T.; Weidner, D. J. Structure and elastic properties of quartz at pressure P = 1 atm American Mineralogist, 1980, 65, 920-930
9010145	CIF	O2 Si	P 32 2 1	4.918; 4.918; 5.407 90; 90; 120	113.257	Ikuta, D.; Kawame, N.; Banno, S.; Hirajima, T.; Ito, K.; Rakovan, J. F.; Downs, R. T.; Tamada, O. First in situ X-ray diffraction identification of coesite and retrograde quartz on a glass thin section of an ultrahigh-pressure metamorphic rock and their crystal structure details Locality: Oomine granite, Tenkawa-mura, Nara, Southwest Japan Sample: in air American Mineralogist, 2007, 92, 57-63
9010146	CIF	O2 Si	P 32 2 1	4.917; 4.917; 5.41 90; 90; 120	113.273	Ikuta, D.; Kawame, N.; Banno, S.; Hirajima, T.; Ito, K.; Rakovan, J. F.; Downs, R. T.; Tamada, O. First in situ X-ray diffraction identification of coesite and retrograde quartz on a glass thin section of an ultrahigh-pressure metamorphic rock and their crystal structure details Locality: Oomine granite, Tenkawa-mura, Nara, Southwest Japan Sample: in a thin section American Mineralogist, 2007, 92, 57-63
9010144	CIF	O2 Si	P 32 2 1	4.923; 4.923; 5.409 90; 90; 120	113.529	Ikuta, D.; Kawame, N.; Banno, S.; Hirajima, T.; Ito, K.; Rakovan, J. F.; Downs, R. T.; Tamada, O. First in situ X-ray diffraction identification of coesite and retrograde quartz on a glass thin section of an ultrahigh-pressure metamorphic rock and their crystal structure details Locality: Yangkou meta-igneous complex in the middle part of the Sulu UHP terrain, eastern China Note: Sample is on a thin section American Mineralogist, 2007, 92, 57-63
9000296	CIF	F Na3 O4 S	R 3 m :R	4.846; 4.846; 4.846 91.8; 91.8; 91.8	113.63	Pabst, A.; Sharp, W. N. Kogarkoite, a new natural phase in the system Na2SO4 - NaF - NaCl American Mineralogist, 1973, 58, 116-127
9002383	CIF	Al0.05 Li0.05 O2 Si0.95	P 32 2 1	4.9567; 4.9567; 5.4164 90; 90; 120	115.246	Xu, H.; Heaney, P. J.; Beall, G. H. Phase transitions induced by solid solution in stuffed derivatives of quartz: A powder synchrotron XRD study of the LiAlSiO4-SiO2 join Sample: x=.9, Li.1Al.1Si1.9O4, alpha quartz structure American Mineralogist, 2000, 85, 971-979
9017014	CIF	O2 Pb	P n a m	5.426; 6.389; 3.362 90; 90; 90	116.549	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 39.0 GPa American Mineralogist, 2014, 99, 170-177
9014509	CIF	Al0.68 H0.68 O2 Si0.32	P b n m	4.72318; 8.9148; 2.77276 90; 90; 90	116.75	Kanzaki, M. Crystal structure of a new high-pressure polymorph of topaz-OH P = 14 GPa, T = 1400 C American Mineralogist, 2010, 95, 1349-1352
9002582	CIF	K0.69 O3 Th0.31 Ti	P 4/m m m	3.9007; 3.9007; 7.8099 90; 90; 90	118.831	Chakhmouradian, A. R.; Mitchell, R. H. Crystal structure of novel high-pressure perovskite K2/3Th1/3TiO3, a possible host for Th in the upper mantle American Mineralogist, 2001, 86, 1076-1080
9010259	CIF	C D K O3	P -1	5.9577; 5.2189; 4.1792 95.306; 100.155; 108.412	119.822	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 8.30 GPa American Mineralogist, 2007, 92, 1018-1025
9003475	CIF	Mn O2	P n m a	9.2734; 2.8638; 4.5219 90; 90; 90	120.089	Post, J. E.; Heaney, P. J. Neutron and synchrotron X-ray diffraction study of the structures and dehydration behaviors of ramsdellite and "groutellite" American Mineralogist, 2004, 89, 969-975
9017013	CIF	O2 Pb	P n a m	5.464; 6.468; 3.415 90; 90; 90	120.69	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 29.0 GPa American Mineralogist, 2014, 99, 170-177
9010258	CIF	C D K O3	P -1	5.9935; 5.2346; 4.1889 95.298; 100.273; 108.498	121.061	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 7.61 GPa American Mineralogist, 2007, 92, 1018-1025
9000274	CIF	Mg2 O4 Si	P b a m	4.98; 8.85; 2.75 90; 90; 90	121.201	Baur, W. H. Computer-simulated crystal structures of observed and hypothetical Mg2SiO4 polymorphs of low and high density Sr2PbO4 structure American Mineralogist, 1972, 57, 709-731
9002382	CIF	Al0.155 Li0.155 O2 Si0.845	P 32 2 1	5.0865; 5.0865; 5.4451 90; 90; 120	122.004	Xu, H.; Heaney, P. J.; Beall, G. H. Phase transitions induced by solid solution in stuffed derivatives of quartz: A powder synchrotron XRD study of the LiAlSiO4-SiO2 join Sample: x=.69, Li.31Al.31Si1.69O4, alpha quartz structure American Mineralogist, 2000, 85, 971-979
9010257	CIF	C D K O3	P -1	6.0237; 5.2476; 4.1958 95.292; 100.348; 108.578	122.074	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 7.18 GPa American Mineralogist, 2007, 92, 1018-1025
9000048	CIF	Ni3 Pb2 S2	R -3 m :R	5.576; 5.576; 5.576 60; 60; 60	122.59	Peacock, M. A.; McAndrew, J. On parkerite and shandite and the crystal structure of Ni3Pb2S2 American Mineralogist, 1950, 35, 425-439
9010256	CIF	C D K O3	P -1	6.0564; 5.261; 4.2047 95.293; 100.438; 108.689	123.174	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 6.57 GPa American Mineralogist, 2007, 92, 1018-1025
9004001	CIF	Mg O3 Si	C m c m	2.4687; 8.1165; 6.1514 90; 90; 90	123.257	Ono, S.; Kikegawa, T.; Ohishi, Y. Equation of state of CaIrO3-type MgSiO3 up to 144 GPa Sample: P = 116 GPa, T = 300 K American Mineralogist, 2006, 91, 475-478
1526004	CIF	C0.333 H6 Al0.666 O5.999 Zn1.334	P 63/m m c	3.0725; 3.0725; 15.114 90; 90; 120	123.565	Merlino, S.; Orlandi, P. Carraraite and zaccagnaite, two new minerals from the Carrara marble quarries: their chemical compositions, physical properties, and structural features American Mineralogist, 2001, 86, 1293-1301
9002646	CIF	C H2 Al0.333 O5 Zn0.667	P 63/m m c	3.0725; 3.0725; 15.114 90; 90; 120	123.565	Merlino, S.; Orlandi, P. Carraraite and zaccagnaite, two new minerals from the Carrara marble quarries: their chemical compositions, physical properties and structural features American Mineralogist, 2001, 86, 1293-1301
9017012	CIF	O2 Pb	P n a m	5.493; 6.52; 3.453 90; 90; 90	123.667	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 23.5 GPa American Mineralogist, 2014, 99, 170-177
9010158	CIF	C Si	P 63 m c	3.081; 3.081; 15.1248 90; 90; 120	124.338	Capitani, G. C.; Di Pierro, S.; Tempesta, G. The 6H-SiC structure model: Further refinement from SCXRD data from a terrestrial moissanite American Mineralogist, 2007, 92, 403-407
9010255	CIF	C D K O3	P -1	6.0938; 5.2765; 4.2139 95.306; 100.539; 108.786	124.432	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 6.02 GPa American Mineralogist, 2007, 92, 1018-1025
9010242	CIF	C H K O3	P -1	6.1443; 5.2974; 4.2133 95.109; 100.743; 108.934	125.784	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 5.5 GPa American Mineralogist, 2007, 92, 1018-1025
9002381	CIF	Al0.25 Li0.25 O2 Si0.75	P 62 2 2	5.1609; 5.1609; 5.4574 90; 90; 120	125.883	Xu, H.; Heaney, P. J.; Beall, G. H. Phase transitions induced by solid solution in stuffed derivatives of quartz: A powder synchrotron XRD study of the LiAlSiO4-SiO2 join Sample: x=.50, Li.5Al.5Si1.5O4, beta quartz structure American Mineralogist, 2000, 85, 971-979
9010254	CIF	C D K O3	P -1	6.1393; 5.2958; 4.2228 95.297; 100.665; 108.892	125.931	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 5.38 GPa American Mineralogist, 2007, 92, 1018-1025
9010253	CIF	C D K O3	P -1	6.1858; 5.3147; 4.233 95.253; 100.793; 109.016	127.485	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 4.77 GPa American Mineralogist, 2007, 92, 1018-1025
9002380	CIF	Al0.33 Li0.33 O2 Si0.67	P 62 2 2	5.2102; 5.2102; 5.4551 90; 90; 120	128.246	Xu, H.; Heaney, P. J.; Beall, G. H. Phase transitions induced by solid solution in stuffed derivatives of quartz: A powder synchrotron XRD study of the LiAlSiO4-SiO2 join Sample: x=.33, Li.67Al.67Si1.33O4, beta quartz structure American Mineralogist, 2000, 85, 971-979
9003476	CIF	Mn O2	P n m a	9.5155; 2.8644; 4.7061 90; 90; 90	128.27	Post, J. E.; Heaney, P. J. Neutron and synchrotron X-ray diffraction study of the structures and dehydration behaviors of ramsdellite and "groutellite" American Mineralogist, 2004, 89, 969-975
9000275	CIF	Mg2 O4 Si	I 4/m m m	3.51; 3.51; 10.45 90; 90; 90	128.745	Baur, W. H. Computer-simulated crystal structures of observed and hypothetical Mg2SiO4 polymorphs of low and high density K2MgF4 structure American Mineralogist, 1972, 57, 709-731
9000309	CIF	Bi2 Ni3 S2	P m a m	5.545; 5.731; 4.052 90; 90; 90	128.766	Fleet, M. E. The crystal structure of parkerite (Ni3Bi2S2) American Mineralogist, 1973, 58, 435-439
9003875	CIF	H2 Mg O2	P -3	5.5407; 5.5407; 4.8435 90; 90; 120	128.771	Mookherjee, M.; Stixrude, L. High-pressure proton disorder in brucite Sample: P = .3 GPa Note: cell adjusted to match Figure 2 American Mineralogist, 2006, 91, 127-134
9010252	CIF	C D K O3	P -1	6.2435; 5.3363; 4.2448 95.216; 100.935; 109.167	129.358	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 4.10 GPa American Mineralogist, 2007, 92, 1018-1025
9014563	CIF	C0.124 H3.224 Cr0.25 Mg0.75 O2.984	P 63/m m c	3.09689; 3.09689; 15.6193 90; 90; 120	129.731	Mills, S. J.; Whitfield, P. S.; Wilson, S. A.; Woodhouse, J. N.; Dipple, G. M.; Raudsepp, M.; Francis, C. A. The crystal structure of stichtite, re-examination of barbertonite, and the nature of polytypism in MgCr hydrotalcites Note: Sample 84588, 2H1 polytype of stichtite American Mineralogist, 2011, 96, 179-187
9014071	CIF	C0.097 H3.224 Cr0.19 Mg0.81 O2.903	P 63/m m c	3.09646; 3.09646; 15.627 90; 90; 120	129.759	Mills, S. J.; Whitfield, P. S.; Wilson, S. A.; Woodhouse, J. N.; Dipple, G. M.; Raudsepp, M.; Francis, C. A. The crystal structure of stichtite, re-examination of barbertonite, and the nature of polytypism in MgCr hydrotalcites Note: Sample 92459, 2H1 polytype of stichtite American Mineralogist, 2011, 96, 179-187
9003080	CIF	Fe H O2	P b n m	4.4683; 9.8334; 2.9739 90; 90; 90	130.669	Nagai, T.; Kagi, H.; Yamanaka, T. Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 9.0 GPa American Mineralogist, 2003, 88, 1423-1427
9010251	CIF	C D K O3	P -1	6.3043; 5.3587; 4.2501 95.132; 101.113; 109.326	131.116	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Sample: P = 3.45 GPa American Mineralogist, 2007, 92, 1018-1025
9001506	CIF	Cl2 Cu	C 1 2/m 1	6.9038; 3.2995; 6.824 90; 122.197; 90	131.54	Burns, P. C.; Hawthorne, F. C. Tolbachite, CuCl2, the first example of Cu2+ octahedrally coordinated by Cl American Mineralogist, 1993, 78, 187-189
9003079	CIF	Fe H O2	P b n m	4.5086; 9.8759; 2.991 90; 90; 90	133.179	Nagai, T.; Kagi, H.; Yamanaka, T. Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 6.3 GPa American Mineralogist, 2003, 88, 1423-1427
9000071	CIF	O2 V	P b n m	4.89; 9.39; 2.93 90; 90; 90	134.537	Evans, H. T.; Mrose, M. E. A crystal chemical study of montroseite and paramontroseite. American Mineralogist, 1955, 40, 861-875
9000224	CIF	Fe O4 W	P 1 2/c 1	4.75; 5.72; 4.97 90; 90.17; 90	135.034	Escobar, C.; Cid-Dresdner H; Kittl, P.; Dumler, I. The relation between "light wolframite" and common wolframite sample: common wolframite American Mineralogist, 1971, 56, 489-498
9000223	CIF	Fe O4 W	P 1 2/c 1	4.753; 5.72; 4.968 90; 90.08; 90	135.066	Escobar, C.; Cid-Dresdner H; Kittl, P.; Dumler, I. The relation between "light wolframite" and common wolframite sample: light wolframite American Mineralogist, 1971, 56, 489-498
9010457	CIF	Ge Mg O3	C m c m	2.5677; 8.3132; 6.3453 90; 90; 90	135.446	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: A038, P = 109.3 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9003419	CIF	Mg O3 Si	P 1 21/c 1	6.928; 6; 3.464 90; 109.47; 90	135.758	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model low clinopx, closest-packed, ABABCACABCBC, with O3A-O3A-O3A angle = 240, O3B-O3B-O3B angle = 120, and model oxygen radius = 1 American Mineralogist, 2004, 89, 614-628
9003435	CIF	Mg O3 Si	P 21 c n	6.532; 6; 3.464 90; 90; 90	135.761	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model hi-P protopx with O3A-O3A-O3A angle = 120, O3B-O3B-O3B angle = 240, and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9003388	CIF	Mg O3 Si	C 1 2/c 1	6.6332; 6; 3.464 90; 100; 90	135.77	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 120 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9003382	CIF	Mg O3 Si	C 1 2/c 1	7.394; 6; 3.464 90; 117.9; 90	135.814	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 240 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9010456	CIF	Ge Mg O3	C m c m	2.5718; 8.3274; 6.3536 90; 90; 90	136.071	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: A036, P = 105.4 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9010410	CIF	Co0.1 Fe0.9 H O2	P b n m	4.58; 9.9198; 3.0102 90; 90; 90	136.761	Alvarez, M.; Sileo, E. E.; Rueda, E. H. Structure and reactivity of synthetic Co-substituted goethites Sample: G10, 10 mol% Co American Mineralogist, 2008, 93, 584-590
9002158	CIF	Fe H O2	P n m a	9.9134; 3.0128; 4.58 90; 90; 90	136.791	Gualtieri, A.; Venturelli, P. In situ study of the goethite-hematite phase transformation by real time synchrotron powder diffraction Sample at T = 25 C American Mineralogist, 1999, 84, 895-904
9003078	CIF	Fe H O2	P b n m	4.5692; 9.9428; 3.0163 90; 90; 90	137.032	Nagai, T.; Kagi, H.; Yamanaka, T. Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 2.8 GPa American Mineralogist, 2003, 88, 1423-1427
9002159	CIF	Fe H O2	P n m a	9.9189; 3.0148; 4.5835 90; 90; 90	137.063	Gualtieri, A.; Venturelli, P. In situ study of the goethite-hematite phase transformation by real time synchrotron powder diffraction Sample at T = 156 C American Mineralogist, 1999, 84, 895-904
9000059	CIF	Fe0.125 H O2 V0.875	P b n m	4.54; 9.97; 3.03 90; 90; 90	137.149	Evans, H. T.; Block, S. The crystal structure of montroseite, a vanadium member of the diaspore group American Mineralogist, 1953, 38, 1242-1250
9000070	CIF	H O2 V	P b n m	4.54; 9.97; 3.03 90; 90; 90	137.149	Evans, H. T.; Mrose, M. E. A crystal chemical study of montroseite and paramontroseite. American Mineralogist, 1955, 40, 861-875
9010409	CIF	Co0.07 Fe0.93 H O2	P b n m	4.5901; 9.9309; 3.0148 90; 90; 90	137.426	Alvarez, M.; Sileo, E. E.; Rueda, E. H. Structure and reactivity of synthetic Co-substituted goethites Sample: G7, 7 mol% Co American Mineralogist, 2008, 93, 584-590
9010458	CIF	Ge Mg O3	C m c m	2.5811; 8.3628; 6.373 90; 90; 90	137.563	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: A042, P = 100.2 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9010408	CIF	Co0.05 Fe0.95 H O2	P b n m	4.5975; 9.9395; 3.0183 90; 90; 90	137.927	Alvarez, M.; Sileo, E. E.; Rueda, E. H. Structure and reactivity of synthetic Co-substituted goethites Sample: G5, 5 mol% Co Note: changed O(x) to match reported bond distances American Mineralogist, 2008, 93, 584-590
9002809	CIF	Fe1.5 Ni0.5 P	P n m a	5.792; 3.564; 6.691 90; 90; 90	138.12	Britvin, S. N.; Rudashevsky, N. S.; Krivovichev, S. V.; Burns, P. C.; Polekhovsky, Y. S. Allabogdanite, (Fe,Ni)2P, a new mineral from the Onello meteorite: The occurence and crystal structure American Mineralogist, 2002, 87, 1245-1249
9010153	CIF	Ca0.017 Cr0.019 Fe0.437 Mg0.16 Mn0.356 S Zn0.001	F m -3 m	5.1717; 5.1717; 5.1717 90; 90; 90	138.325	Karwowski, L.; Kryza, R.; Przylibski, T. A. New chemical and physical data on keilite from the Zaklodzie enstatite achondrite Locality: Zaklodzie enstatite achondrite meteorite American Mineralogist, 2007, 92, 204-209
9002655	CIF	Al0.12 Mg1.88 Na1.78 O7 Si2	P -3 1 m	4.9827; 4.9827; 6.4354 90; 90; 120	138.368	Yang, H.; Konzett, J.; Prewitt, C. T. Crystal structure of phase X, a high pressure alkali-rich hydrous silicate and its anhydrous equivalent Sample: JKW42 American Mineralogist, 2001, 86, 1483-1488
9010407	CIF	Co0.03 Fe0.97 H O2	P b n m	4.607; 9.9472; 3.021 90; 90; 90	138.443	Alvarez, M.; Sileo, E. E.; Rueda, E. H. Structure and reactivity of synthetic Co-substituted goethites Sample: G3, 3 mol% Co American Mineralogist, 2008, 93, 584-590
9000813	CIF	Cu0.848 Fe0.152 S	P -3 m 1	3.783; 3.783; 11.195 90; 90; 120	138.748	Sugaki, A.; Shima, H.; Kitakaze, A.; Mizota, T. Hydrothermal synthesis of nukundamite and its crystal structure American Mineralogist, 1981, 66, 398-402
9010406	CIF	Fe H O2	P b n m	4.6163; 9.9564; 3.0248 90; 90; 90	139.025	Alvarez, M.; Sileo, E. E.; Rueda, E. H. Structure and reactivity of synthetic Co-substituted goethites Sample: G0, 0 mol% Co Note: changed OH(x) to match reported bond distances American Mineralogist, 2008, 93, 584-590
9010462	CIF	Ge Mg O3	C m c m	2.5949; 8.4009; 6.4013 90; 90; 90	139.545	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B020, P = 89.5 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9003077	CIF	Fe H O2	P b n m	4.6152; 9.987; 3.0316 90; 90; 90	139.733	Nagai, T.; Kagi, H.; Yamanaka, T. Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 0.5 GPa American Mineralogist, 2003, 88, 1423-1427
9010461	CIF	Ge Mg O3	C m c m	2.5971; 8.4089; 6.4064 90; 90; 90	139.908	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B019, P = 87.8 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9000121	CIF	Fe0.177 Mn0.12 Nb0.124 O2 Sn0.128 Ta0.438 Ti0.006 W0.001 Zr0.006	P c a n	5.731; 4.742; 5.152 90; 90; 90	140.013	Nickel, E. H.; Rowland, J. F.; McAdam, R. C. Ixiolite - a columbite substructure sample M-6591, note that the coordinates have been put into a standard setting American Mineralogist, 1963, 48, 961-979
9010460	CIF	Ge Mg O3	C m c m	2.5987; 8.4107; 6.4079 90; 90; 90	140.057	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B018, P = 93.6 GPa, T = 1420 K American Mineralogist, 2008, 93, 965-976
9010459	CIF	Ge Mg O3	C m c m	2.6001; 8.4123; 6.4099 90; 90; 90	140.203	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B017, P = 92.1 GPa, T = 1740 K American Mineralogist, 2008, 93, 965-976
9003076	CIF	Fe H O2	P b n m	4.625; 9.99; 3.037 90; 90; 90	140.321	Nagai, T.; Kagi, H.; Yamanaka, T. Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 0 GPa American Mineralogist, 2003, 88, 1423-1427
9010463	CIF	Ge Mg O3	C m c m	2.6018; 8.4259; 6.4161 90; 90; 90	140.657	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B038, P = 85.0 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9000004	CIF	Hg S	P 32 2 1	4.15; 4.15; 9.51 90; 90; 120	141.843	Ramsdell, L. S. The crystal structures of some metallic sulfides American Mineralogist, 1925, 10, 281-304
9010464	CIF	Ge Mg O3	C m c m	2.6113; 8.4602; 6.4381 90; 90; 90	142.231	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B040, P = 79.2 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9010465	CIF	Ge Mg O3	C m c m	2.6127; 8.4674; 6.4413 90; 90; 90	142.499	Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S. Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B041, P = 78.2 GPa, T = 300 K American Mineralogist, 2008, 93, 965-976
9003635	CIF	Ge Mg O3	C m c m	2.613; 8.473; 6.443 90; 90; 90	142.648	Hirose, K.; Kawamura, K.; Ohishi, Y.; Tateno, S.; Sata, N. Stability and equation of state of MgGeO3 post-perovskite phase Sample: P = 78.3 GPa, T = 300 K Note: CaIrO3-type structure American Mineralogist, 2005, 90, 262-265
9003636	CIF	Ge Mg O3	C m c m	2.613; 8.473; 6.443 90; 90; 90	142.648	Hirose, K.; Kawamura, K.; Ohishi, Y.; Tateno, S.; Sata, N. Stability and equation of state of MgGeO3 post-perovskite phase Sample: P = 78.3 GPa, T = 300 K Note: CaIrO3-type structure, positional parameters from MD simulation American Mineralogist, 2005, 90, 262-265
9000262	CIF	Ge Mn2 O4	P b a m	5.262; 9.274; 2.954 90; 90; 90	144.155	Morimoto, N.; Tokonami, M.; Koto, K.; Nakajima, S. Crystal structures of the high pressure polymorphs of Mn2GeO4 American Mineralogist, 1972, 57, 62-75
9000008	CIF	As0.03 Cu0.53 Fe0.31 Mo0.09 S0.71 Sb0.01 Sn0.05 Te0.02 Zn0.01	F -4 3 m	5.304; 5.304; 5.304 90; 90; 90	149.214	Zachariasen, W. H. X-Ray examination of colusite, (Cu,Fe,Mo,Sn)4(S,As,Te)3-4 American Mineralogist, 1933, 18, 534-537
1521251	CIF	Co0.01 Cr0.03 Fe Ni0.13 P0.97 Si0.03 Ti0.87 V0.02	P n m a	6.007; 3.602; 6.897 90; 90; 90	149.232	Ivanov, A.V.; Mikouchi, T.; Zolensky, M.E.; Saito, A.; Yang, S.V.; Ohsumi, K.; Kononkova, N.N. Florenskyite, Fe Ti P, a new phosphide from the Kaidun meteorite American Mineralogist, 2000, 85, 1082-1086
9010053	CIF	Fe Ni0.13 P0.97 Si0.03 Ti0.87	P n m a	6.007; 3.602; 6.897 90; 90; 90	149.232	Ivanov, A. V.; Zolensky, M. E.; Saito, A.; Ohsumi, K.; Yang, S. V.; Kononkova, N. N.; Mikouchi, T. Florenskyite, FeTiP, a new phosphide from the Kaidun meteorite American Mineralogist, 2000, 85, 1082-1086
9001315	CIF	As Sb	R -3 m :H	4.0255; 4.0255; 10.837 90; 90; 120	152.083	Bayless, P. Crystal chemistry and crystallography of some minerals in the tetradymite group American Mineralogist, 1991, 76, 257-265
9016961	CIF	Ca0.5 O2 U0.5	F m -3 m	5.3647; 5.3647; 5.3647 90; 90; 90	154.396	Galuskin, E. V.; Kusz, J.; Armbruster, T.; Galuskina, I. O.; Marzec, K.; Vapnik, Y.; Murashko, M. Vorlanite, (CaU6+)O4, from Jabel Harmun, Palestinian Autonomy, Israel American Mineralogist, 2013, 98, 1938-1942
1557929	CIF	Ca O4 U	P m -3 m	5.3647; 5.3647; 5.3647 90; 90; 90	154.4	Galuskin, E.V.; Kusz, J.; Armbruster, T.; Galuskina, I.O.; Marzec, K.; Vapnik, Y.; Murashko, M. Vorlanite, (CaU6+)O4, from Jabel Harmun, Palestinian Autonomy, Israel American Mineralogist, 2013, 98, 1938-1942
9004008	CIF	Mg O3 Si	P b n m	4.701; 4.87; 6.782 90; 90; 90	155.266	Sugahara, M.; Yoshiasa, A.; Komatsu, Y.; Yamanaka, T.; Bolfan-Casanova N; Nakastuka, A.; Sasaki, S.; Tanaka, M. Reinvestigation of the MgSiO3 perovskite structure at high pressure Sample: P = 15.0 GPa American Mineralogist, 2006, 91, 533-536
9010011	CIF	Fe S2	P a -3	5.38; 5.38; 5.38 90; 90; 90	155.721	Ramsdell, L. S. The crystal structures of some metallic sulfides American Mineralogist, 1925, 10, 281-304
9014376	CIF	Ca0.53 O2 U0.47	F m -3 m	5.3813; 5.3813; 5.3813 90; 90; 90	155.834	Galuskin, E. V.; Armbruster, T.; Galuskina, I. O.; Lazic, B.; Winiarski, A.; Gazeev, V. M.; Dzierzanowski, P.; Zadov, A. E.; Pertzev, N. N.; Wrzalik, R.; Gurbanov, A. G.; Janeczek, J. Vorlanite (Ca(U6+)O4 - A new mineral from the Upper Chegem caldera, Kabardino-Balkaria, Northern Caucasus, Russia Note: fluorite structure American Mineralogist, 2011, 96, 188-196
9010120	CIF	F3 Mg Na	C m c m	2.7164; 8.381; 6.8487 90; 90; 90	155.919	Martin, C. D.; Crichton, W. A.; Liu, H.; Prakapenka, V.; Chen, J.; Parise, J. B. Rietveld structure refinement of perovskite and post-perovskite phases of NaMgF3 (neighborite) at high pressures Sample: (c), P = 54 GPa American Mineralogist, 2006, 91, 1703-1706
9010121	CIF	F3 Mg Na	C m c 21	2.7143; 8.393; 6.846 90; 90; 90	155.96	Martin, C. D.; Crichton, W. A.; Liu, H.; Prakapenka, V.; Chen, J.; Parise, J. B. Rietveld structure refinement of perovskite and post-perovskite phases of NaMgF3 (neighborite) at high pressures Sample: (d), P = 54 GPa American Mineralogist, 2006, 91, 1703-1706
9010119	CIF	F3 Mg Na	C m c m	2.7145; 8.393; 6.8512 90; 90; 90	156.09	Martin, C. D.; Crichton, W. A.; Liu, H.; Prakapenka, V.; Chen, J.; Parise, J. B. Rietveld structure refinement of perovskite and post-perovskite phases of NaMgF3 (neighborite) at high pressures Sample: (b), P = 54 GPa American Mineralogist, 2006, 91, 1703-1706
9004007	CIF	Mg O3 Si	P b n m	4.7148; 4.8741; 6.8051 90; 90; 90	156.384	Sugahara, M.; Yoshiasa, A.; Komatsu, Y.; Yamanaka, T.; Bolfan-Casanova N; Nakastuka, A.; Sasaki, S.; Tanaka, M. Reinvestigation of the MgSiO3 perovskite structure at high pressure Sample: P = 10.0 GPa American Mineralogist, 2006, 91, 533-536
9000142	CIF	Cu3 S4 V	P -4 3 m	5.3912; 5.3912; 5.3912 90; 90; 90	156.695	Trojer, F. J. Refinement of the structure of sulvanite Note: symmetry constraints on B(i,j) reported incorrectly American Mineralogist, 1966, 51, 890-894
9004006	CIF	Mg O3 Si	P b n m	4.722; 4.88; 6.825 90; 90; 90	157.271	Sugahara, M.; Yoshiasa, A.; Komatsu, Y.; Yamanaka, T.; Bolfan-Casanova N; Nakastuka, A.; Sasaki, S.; Tanaka, M. Reinvestigation of the MgSiO3 perovskite structure at high pressure Sample: P = 7.8 GPa American Mineralogist, 2006, 91, 533-536
9000107	CIF	S Zn	F -4 3 m	5.4093; 5.4093; 5.4093 90; 90; 90	158.279	Skinner, B. J. Unit-cell edges of natural and synthetic sphalerites American Mineralogist, 1961, 46, 1399-1411
9000594	CIF	Fe S2	P a -3	5.4166; 5.4166; 5.4166 90; 90; 90	158.921	Bayliss, P. Crystal structure refinement of a weakly anisotropic pyrite cubic model American Mineralogist, 1977, 62, 1168-1172
9000595	CIF	Fe S2	P 1	5.4166; 5.4166; 5.4166 90; 90; 90	158.921	Bayliss, P. Crystal structure refinement of a weakly anisotropic pyrite American Mineralogist, 1977, 62, 1168-1172
1534893	CIF	Fe S2	P c a 21	5.417; 5.417; 5.417 90; 90; 90	158.956	Bayliss, P. Crystal chemistry and crystallography of some minerals within the pyrite group American Mineralogist, 1989, 74, 1168-1176
9001581	CIF	O2 Si	P 41 21 2	4.8757; 4.8757; 6.7163 90; 90; 90	159.663	Downs, R. T.; Palmer, D. C. The pressure behavior of alpha cristobalite P = 1.05 GPa American Mineralogist, 1994, 79, 9-14
1525302	CIF	Fe0.2 Mn0.05 S Zn0.75	F -4 3 m	5.4272; 5.4272; 5.4272 90; 90; 90	159.855	Skinner, B.J. Unit-cell edges of natural and synthetic sphalerites American Mineralogist, 1961, 46, 1399-1411
9010451	CIF	Fe0.61 Mn0.04 S Zn0.35	F -4 3 m	5.439; 5.439; 5.439 90; 90; 90	160.9	Britvin, S. N.; Bogdanova, A. N.; Boldyreva, M. M.; Aksenova, G. Y. Rudashevskyite, the Fe-dominant analogue of sphalerite, a new mineral: Description and crystal structure Sample: Domain 2 American Mineralogist, 2008, 93, 902-909
9010450	CIF	Fe0.61 Mn0.04 S Zn0.35	F -4 3 m	5.441; 5.441; 5.441 90; 90; 90	161.078	Britvin, S. N.; Bogdanova, A. N.; Boldyreva, M. M.; Aksenova, G. Y. Rudashevskyite, the Fe-dominant analogue of sphalerite, a new mineral: Description and crystal structure Sample: Domain 1 American Mineralogist, 2008, 93, 902-909
9010452	CIF	Fe0.61 Mn0.04 S Zn0.35	F -4 3 m	5.444; 5.444; 5.444 90; 90; 90	161.345	Britvin, S. N.; Bogdanova, A. N.; Boldyreva, M. M.; Aksenova, G. Y. Rudashevskyite, the Fe-dominant analogue of sphalerite, a new mineral: Description and crystal structure Sample: Domain 3 American Mineralogist, 2008, 93, 902-909
9000629	CIF	Cl Na	F m -3 m	5.4533; 5.4533; 5.4533 90; 90; 90	162.173	Finger, L. W.; King, H. E. A revised method of operation of the single-crystal diamond cell and refinement of the structure of NaCl at 32 kbar American Mineralogist, 1978, 63, 337-342
9001049	CIF	Mg O3 Si	P b n m	4.7754; 4.9292; 6.8969 90; 90; 90	162.345	Horiuchi, H.; Ito, E.; Weidner, D. J. Perovskite-type MgSiO3: Single-crystal X-ray diffraction study American Mineralogist, 1987, 72, 357-360
9003456	CIF	Mg O3 Si	P b n m	4.778; 4.9298; 6.899 90; 90; 90	162.503	Dobson, D. P.; Jacobsen, S. D. The flux growth of magnesium silicate perovskite single crystals American Mineralogist, 2004, 89, 807-811
9004005	CIF	Mg O3 Si	P b n m	4.7781; 4.9305; 6.899 90; 90; 90	162.53	Sugahara, M.; Yoshiasa, A.; Komatsu, Y.; Yamanaka, T.; Bolfan-Casanova N; Nakastuka, A.; Sasaki, S.; Tanaka, M. Reinvestigation of the MgSiO3 perovskite structure at high pressure Sample: P = .0001 GPa American Mineralogist, 2006, 91, 533-536
9002028	CIF	Fe0.05 Mg0.95 O3 Si	P b n m	4.7839; 4.9294; 6.9 90; 90; 90	162.714	Jephcoat, A. P.; Hriljac, J. A.; McCammon, C. A.; O'Neill H St C; Rubie, D. C.; Finger, L. W. High-resolution synchrotron X-ray powder diffraction and Rietveld structure refinement of two (Mg.95,Fe.05)SiO3 perovskite samples synthesized under different oxygen fugacity conditions Sample PV-A American Mineralogist, 1999, 84, 214-220
9001580	CIF	O2 Si	P 41 21 2	4.9028; 4.9028; 6.7782 90; 90; 90	162.931	Downs, R. T.; Palmer, D. C. The pressure behavior of alpha cristobalite P = 0.73 GPa American Mineralogist, 1994, 79, 9-14
9002029	CIF	Fe0.06 Mg0.96 O3 Si	P b n m	4.78517; 4.93227; 6.90484 90; 90; 90	162.966	Jephcoat, A. P.; Hriljac, J. A.; McCammon, C. A.; O'Neill H St C; Rubie, D. C.; Finger, L. W. High-resolution synchrotron X-ray powder diffraction and Rietveld structure refinement of two (Mg.95,Fe.05)SiO3 perovskite samples synthesized under different oxygen fugacity conditions Sample PV-B American Mineralogist, 1999, 84, 214-220
9014886	CIF	Fe O7 Ti3	I m m 2	9.9522; 2.7397; 5.9953 90; 90; 90	163.468	Nishio-Hamane D; Zhang, M.; Yagi, T.; Ma, Y. High-pressure and high-temperature phase transitions in FeTiO3 and a new dense FeTi3O7 structure Note: P = 61 GPa, T = 300 K American Mineralogist, 2012, 97, 568-572
9000045	CIF	Cu5 Fe S4	F 2 3	5.47; 5.47; 5.47 90; 90; 90	163.667	Tunell, G.; Adams, C. E. On the symmetry and crystal structure of bornite American Mineralogist, 1949, 34, 824-829
9017057	CIF	Cr0.138 Mg0.931 O3 Si0.931	P b n m	4.8213; 4.9368; 6.9132 90; 90; 90	164.547	Bindi, L.; Sirotkina, E. A.; Bobrov, A. V.; Irifune, T. Chromium solubility in perovskite at high pressure: The structure of (Mg1-xCrx)(Si1-xCrx)O3 (with x = 0.07) synthesized at 23 GPa and 1600 C American Mineralogist, 2014, 99, 866-869
9003383	CIF	Mg O3 Si	C 1 2/c 1	7.565; 6.51; 3.759 90; 115.8; 90	166.67	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 220 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9003387	CIF	Mg O3 Si	C 1 2/c 1	7.023; 6.51; 3.759 90; 104.1; 90	166.683	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 140 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9001567	CIF	Al2.25 O4.871 Si0.75	P b a m	7.54336; 7.69176; 2.88402 90; 90; 90	167.336	Balzar, D.; Ledbetter, H. Crystal structure and compressibility of 3:2 mullite American Mineralogist, 1993, 78, 1192-1196
9010159	CIF	Al2.28 O4.86 Si0.72	P b a m	7.552; 7.6872; 2.8843 90; 90; 90	167.444	Popović, J.; Tkalčec, E.; Gržeta, B.; Kurajica, S.; Schmauch, J. Cobalt incorporation in mullite Sample: MU0 American Mineralogist, 2007, 92, 408-411
9010160	CIF	Al2.25 Co0.015 O4.86 Si0.735	P b a m	7.5618; 7.6882; 2.886 90; 90; 90	167.782	Popovic, J.; Tkalcec, E.; Grzeta, B.; Kurajica, S.; Schmauch, J. Cobalt incorporation in mullite Sample: MU1 American Mineralogist, 2007, 92, 408-411
9001037	CIF	Al2.38 O4.77 Si0.62	P b a m	7.5785; 7.6817; 2.8864 90; 90; 90	168.034	Angel, R. J.; Prewitt, C. T. Crystal structure of mullite: A re-examination of the average structure American Mineralogist, 1986, 71, 1476-1482
9001322	CIF	Al2.4 O4.8 Si0.6	P b a m	7.5785; 7.6817; 2.8864 90; 90; 90	168.034	Angel, R. J.; McMullan, R. K.; Prewitt, C. T. Substructure and superstructure of mullite by neutron diffraction Model 2 X-ray American Mineralogist, 1991, 76, 332-342
9003557	CIF	Ag Au Te2	P 1 2/m 1	5.124; 4.419; 7.437 90; 89.96; 90	168.396	Bindi, L.; Cipriani, C. Ordered distribution of Au and Ag in the crystal structure of muthmannite, AuAgTe2, a rare telluride from Sacarimb, Western Romania American Mineralogist, 2004, 89, 1505-1509
9001579	CIF	O2 Si	P 41 21 2	4.9501; 4.9501; 6.876 90; 90; 90	168.486	Downs, R. T.; Palmer, D. C. The pressure behavior of alpha cristobalite P = 0.19 GPa American Mineralogist, 1994, 79, 9-14
9003661	CIF	Fe O8 S2	I m m m	3.668; 6.418; 7.159 90; 90; 90	168.532	Ventruti, G.; Scordari, F.; Schingaro, E.; Gualtieri, A. F.; Meneghini, C. The order-disorder character of FeOHSO4 obtained from the thermal decomposition of metahohmannite, Fe3+2(H2O)4[O(SO4)2] Sample: T = 220 C Note: this is a fictitious "superposition structure", resulting from Rietveld refinement of a structure with disordered layer stacking American Mineralogist, 2005, 90, 679-686
9001321	CIF	Al2.4 O4.8 Si0.6	P b a m	7.588; 7.688; 2.8895 90; 90; 90	168.563	Angel, R. J.; McMullan, R. K.; Prewitt, C. T. Substructure and superstructure of mullite by neutron diffraction Model 1 Neutron American Mineralogist, 1991, 76, 332-342
9002407	CIF	Al1.97 Cr0.25 O5.22 Si0.78	P b a m	7.56712; 7.70909; 2.90211 90; 90; 90	169.296	Fischer, R. X.; Schneider, H. Crystal structure of Cr-mullite Sample: fixed slit, monochromatic American Mineralogist, 2000, 85, 1175-1179
9002341	CIF	Al2 B4 La0.785 O10.667 Th0.215	P -6 2 m	4.596; 4.596; 9.309 90; 90; 120	170.292	Callegari, A.; Caucia, F.; Mazzi, F.; Oberti, R.; Ottolini, L.; Ungaretti, L. The crystal structure of peprossiite-(Ce), and anhydrous REE and Al mica-like borate with square-pyramidal coordination for Al Sample: Pep2 American Mineralogist, 2000, 85, 586-593
9001578	CIF	O2 Si	P 41 21 2	4.9717; 4.9717; 6.9223 90; 90; 90	171.104	Downs, R. T.; Palmer, D. C. The pressure behavior of alpha cristobalite P = room pressure American Mineralogist, 1994, 79, 9-14
9000389	CIF	Al2 Ba H2 O10 P2	P -1	6.049; 6.964; 4.971 116.51; 86.06; 112.59	171.667	Meagher, E. P.; Gibbons, C. S.; Trotter, J. The crystal structure of jagowerite: BaAl2P2O8(OH)2 American Mineralogist, 1974, 59, 291-295
9001621	CIF	Al2.826 O4.588 Si0.174	P b a m	7.7391; 7.6108; 2.918 90; 90; 90	171.872	Fischer, R. X.; Schneider, H.; Schmucker, M. Crystal structure of Al-rich mullite American Mineralogist, 1994, 79, 983-990
9000845	CIF	Bi0.138 Cu1.344 S	F m -3 m	5.563; 5.563; 5.563 90; 90; 90	172.158	Tomeoka, K.; Ohmasa, M. The modulated structure of cubic Cu9BiS6 the alpha phase American Mineralogist, 1982, 67, 360-372
9002660	CIF	Al3 Na0.335 O4.665	P b a m	7.6819; 7.681; 2.91842 90; 90; 90	172.2	Fischer, R. X.; Schmucker, M.; Angerer, P.; Schneider, H. Crystal structures of Na and K aluminate mullites Sample: Na American Mineralogist, 2001, 86, 1513-1518
9002340	CIF	Al2 B3.868 Ca0.102 O10.667 Pr0.818 Si0.132	P -6 2 m	4.612; 4.612; 9.374 90; 90; 120	172.677	Callegari, A.; Caucia, F.; Mazzi, F.; Oberti, R.; Ottolini, L.; Ungaretti, L. The crystal structure of peprossiite-(Ce), and anhydrous REE and Al mica-like borate with square-pyramidal coordination for Al Sample: Pep1 American Mineralogist, 2000, 85, 586-593
9000117	CIF	Cu1.8 S	F m -3 m	5.57; 5.57; 5.57 90; 90; 90	172.809	Morimoto, N.; Kullerud, G. Polymorphism in digenite high-temperature form at T = 80 C American Mineralogist, 1963, 48, 110-123
9002661	CIF	Al3 K0.335 O4.665	P b a m	7.6934; 7.6727; 2.93231 90; 90; 90	173.092	Fischer, R. X.; Schmucker, M.; Angerer, P.; Schneider, H. Crystal structures of Na and K aluminate mullites Sample: K American Mineralogist, 2001, 86, 1513-1518
9000864	CIF	As Co S	P c a 21	5.592; 5.587; 5.567 90; 90; 90	173.927	Bayliss, P. A further crystal structure refinement of cobaltite American Mineralogist, 1982, 67, 1048-1057
9000133	CIF	As Co S	P c a 21	5.582; 5.582; 5.582 90; 90; 90	173.928	Giese, R. F.; Kerr, P. F. The crystal structures of ordered and disordered cobaltite ordered, annealed after heating in a vacuum at 450 C American Mineralogist, 1965, 50, 1002-1014
9000134	CIF	As Co S	P a -3	5.582; 5.582; 5.582 90; 90; 90	173.928	Giese, R. F.; Kerr, P. F. The crystal structures of ordered and disordered cobaltite disordered, annealed after heating in a vacuum to 850 C American Mineralogist, 1965, 50, 1002-1014
9000091	CIF	O5 V2	C 1 2/m 1	12.17; 2.99; 4.83 90; 98.25; 90	173.937	Evans, H. T.; Mrose, M. E. A crystal chemical study of the vanadium oxide minerals, haggite and doloresite American Mineralogist, 1960, 45, 1144-1166
9001249	CIF	Cu0.7 Fe0.3 S2	P a -3	5.585; 5.585; 5.585 90; 90; 90	174.209	Bayliss, P. Crystal chemistry and crystallography of some minerals within the pyrite group American Mineralogist, 1989, 74, 1168-1176
9000109	CIF	As Fe S	P -1	5.744; 5.675; 5.785 90; 112.28; 90	174.496	Morimoto, N.; Clark, L. A. Arsenopyrite crystal-chemical relations From Freiberg, Germany American Mineralogist, 1961, 46, 1448-1469
9014938	CIF	Ca0.002 Fe0.01 Mn0.993 S	F -4 3 m	5.601; 5.601; 5.601 90; 90; 90	175.71	Ma, C.; Beckett, J. R.; Rossman, G. R. Browneite, MnS, a new sphalerite-group mineral from the Zaklodzie meteorite American Mineralogist, 2012, 97, 2056-2059
1509521	CIF	Ag S2 Sb	F m -3 m	5.602; 5.602; 5.602 90; 90; 90	175.804	Chang, L.L.Y.; Hoda, S.N. Phase relations inthe systems PbS-Ag2S-Ag2S3 and PbS-Ag2S-Bi2S3 American Mineralogist, 1975, 60, 621-633
9000865	CIF	As1.04 Co0.27 Fe0.19 Ni0.54 S0.96	P c a 21	5.622; 5.622; 5.622 90; 90; 90	177.694	Bayliss, P. A further crystal structure refinement of gersdorffite Sample: M15861 American Mineralogist, 1982, 67, 1058-1064
9014857	CIF	H6 Mg O6 Si	P 21 21 21	4.976; 5.023; 7.115 90; 89.89; 90	177.835	Wunder, B.; Jahn, S.; Koch-Muller M; Speziale, S. The 3.65 A phase, MgSi(OH)6: structural insights from DFT-calculations and T-dependent IR spectroscopy Note: theoretical structure, LDA from P2_12_12_1 American Mineralogist, 2012, 97, 1043-1048
9000848	CIF	H4 Mg3 O9 Si2	P 3 1 m	5.332; 5.332; 7.233 90; 90; 120	178.086	Mellini, M. The crystal structure of lizardite 1T: hydrogen bonds and polytypism American Mineralogist, 1982, 67, 587-598
9001778	CIF	H6 Mg3 O9 Si2	P 3 1 m	5.3267; 5.3267; 7.2539 90; 90; 120	178.246	Gregorkiewitz, M.; Lebech, B.; Mellini, M.; Viti, C. Hydrogen positions and thermal expansion in lizardite-1T from Elba: A low-temperature study using Rietveld refinement of neutron diffraction data T = 8 K American Mineralogist, 1996, 81, 1111-1116
9001092	CIF	H4 Mg3 O9 Si2	P 3 1 m	5.325; 5.325; 7.259 90; 90; 120	178.257	Mellini, M.; Zanazzi, P. F. Crystal structures of lizardite-1T and lizardite-2H1 from Coli, Italy Sample: Lizardite-1T Note: U(1,2) for Mg/O3 altered to match symmetry constraints. Note: Thermal ellipsoid for O1 is non-positive definite American Mineralogist, 1987, 72, 943-948
9001638	CIF	H4 Mg3 O9 Si2	P 3 1 m	5.33; 5.33; 7.269 90; 90; 120	178.838	Mellini, M.; Viti, C. Crystal structure of lizardite-1T from Elba, Italy Sample: MFN3-1 Note: U(1,2) for Mg and O2 have been changed to match symmetry constraints. American Mineralogist, 1994, 79, 1194-1198
9016723	CIF	H6 Mg O6 Si	P 1 21 1	4.958; 5.056; 7.14 90; 89.87; 90	178.983	Wunder, B.; Jahn, S.; Koch-Muller M; Speziale, S. The 3.65 A phase, MgSi(OH)6: structural insights from DFT-calculations and T-dependent IR spectroscopy Note: theoretical structure, LDA from Pnam American Mineralogist, 2012, 97, 1043-1048
9001639	CIF	H4 Mg3 O9 Si2	P 3 1 m	5.338; 5.338; 7.257 90; 90; 120	179.079	Mellini, M.; Viti, C. Crystal structure of lizardite-1T from Elba, Italy Sample: MFN3-6 Note: U(1,2) for Si, O2 and O4 have been changed to match symmetry constraints. American Mineralogist, 1994, 79, 1194-1198
9003308	CIF	Cl Na	F m -3 m	5.6401; 5.6401; 5.6401 90; 90; 90	179.416	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416031, T = 25 C, P = 0.0 kbar, cell volume = 179.42 ang**3 American Mineralogist, 2004, 89, 204-210
1527670	CIF	B Fe2.13 Mg0.64 O5 Sn0.2	P 1 2/m 1	10.695; 3.102; 5.432 90; 94.21; 90	179.725	Konnert, J.A.; Appleman, D.E.; Clark, J.R.; Finger, L.W.; Kato, T.; Miura, Y. Crystal structure and cation distribution of Hulsite, a tin-iron borate American Mineralogist, 1976, 61, 116-122
9000486	CIF	B2 Fe2.63 Mg1.12 O10 Sn0.2	P 1 2/m 1	10.695; 3.102; 5.432 90; 94.2; 90	179.727	Konnert, J. A.; Appleman, D. E.; Clark, J. R.; Finger, L. W.; Kato, T.; Miura, Y. Crystal structure and cation distribution of hulsite, a tin-iron borate American Mineralogist, 1976, 61, 116-122
9003309	CIF	Cl Na	F m -3 m	5.653; 5.653; 5.653 90; 90; 90	180.65	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416032, T = 100 C, P = 0.0 kbar, cell volume = 180.65 ang**3 American Mineralogist, 2004, 89, 204-210
9010118	CIF	F3 Mg Na	P b n m	4.8904; 5.2022; 7.1403 90; 90; 90	181.655	Martin, C. D.; Crichton, W. A.; Liu, H.; Prakapenka, V.; Chen, J.; Parise, J. B. Rietveld structure refinement of perovskite and post-perovskite phases of NaMgF3 (neighborite) at high pressures Sample: (a), P = 27 GPa American Mineralogist, 2006, 91, 1703-1706
9017067	CIF	Al2.455 Mg0.79 Na0.33 O6 Si0.63	P 63/m	8.7225; 8.7225; 2.7664 90; 90; 120	182.275	Pamato, M. G.; Kurnosov, A.; Ballaran, T. B.; Trots, D. M.; Caracas, R.; Frost, D. J. Hexagonal Na0.41[Na0.125Mg0.79Al0.085]2[Al0.79Si0.21]6O12 (NAL phase): Crystal structure refinement and elasticity American Mineralogist, 2014, 99, 1562-1569
9003310	CIF	Cl Na	F m -3 m	5.685; 5.685; 5.685 90; 90; 90	183.735	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416033, T = 200 C, P = 0.0 kbar, cell volume = 183.73 ang**3 American Mineralogist, 2004, 89, 204-210
9000019	CIF	Fe1.4 H1.667 O4.001 Si0.5	R 3 :H	3.16; 3.16; 21.25 90; 90; 120	183.765	Hendricks, S. B. Random structures of layer minerals as illustrated by cronstedtite (2FeO.Fe2O3.SiO2.2H2O). Possible iron content of kaolin American Mineralogist, 1939, 24, 529-539
9015034	CIF	C0.2 H2.912 Al0.4 O3.056 Zn0.6	R -3 m :H	3.06616; 3.06616; 22.6164 90; 90; 120	184.138	Lozano, R. P.; Rossi, C.; La Iglesia, A.; Matesanz, E. Zaccagnaite-3R, a new Zn-Al hydrotalcite polytype from El Soplao cave (Cantabria, Spain) Note: polytype zaccagnaite-3R American Mineralogist, 2012, 97, 513-523
9017022	CIF	He O2 Si	R -3 c :R	9.08; 9.08; 9.08 31.809; 31.809; 31.809	184.735	Matsui, M.; Sato, T.; Funamori, N. Crystal structures and stabilities of cristobalite-helium phases at high pressures Note: P = 4 GPa American Mineralogist, 2014, 99, 184-189
9003267	CIF	Cl K0.2 Na0.8	F m -3 m	5.6958; 5.6958; 5.6958 90; 90; 90	184.784	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56417, T = 350 C, P = 21.0 kbar, cell volume = 184.78 ang**3 American Mineralogist, 2004, 89, 204-210
9003269	CIF	Cl K0.2 Na0.8	F m -3 m	5.6981; 5.6981; 5.6981 90; 90; 90	185.008	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56413, T = 400 C, P = 21.9 kbar, cell volume = 185.01 ang**3 American Mineralogist, 2004, 89, 204-210
9003280	CIF	Cl K0.2 Na0.8	F m -3 m	5.699; 5.699; 5.699 90; 90; 90	185.096	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56429, T = 550 C, P = 25.1 kbar, cell volume = 185.10 ang**3 American Mineralogist, 2004, 89, 204-210
9003281	CIF	Cl K0.2 Na0.8	F m -3 m	5.6991; 5.6991; 5.6991 90; 90; 90	185.105	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56437, T = 550 C, P = 25.1 kbar, cell volume = 185.11 ang**3 American Mineralogist, 2004, 89, 204-210
9002506	CIF	Al3 Ca0.5 Mg O6	P 63/m	8.7616; 8.7616; 2.785 90; 90; 120	185.15	Miura, H.; Hamada, Y.; Suzuki, T.; Akaogi, M.; Miyajima, N.; Fujino, K. Crystal structure of MaMg2Al6O12, a new Al-rich high pressure form American Mineralogist, 2000, 85, 1799-1803
9003271	CIF	Cl K0.2 Na0.8	F m -3 m	5.701; 5.701; 5.701 90; 90; 90	185.29	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56409, T = 450 C, P = 22.8 kbar, cell volume = 185.29 ang**3 American Mineralogist, 2004, 89, 204-210
9003282	CIF	Cl K0.2 Na0.8	F m -3 m	5.7033; 5.7033; 5.7033 90; 90; 90	185.515	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56453, T = 550 C, P = 25.2 kbar, cell volume = 185.51 ang**3 American Mineralogist, 2004, 89, 204-210
9010402	CIF	Mg O3 Si	P 1 21/m 1	7.026; 6.228; 4.262 90; 95.85; 90	185.525	Tschauner, O.; Kiefer, B.; Liu, H.; Sinogeikin, S.; Somayazulu, M.; Luo, S.-N. Possible structural polymorphism in Al-bearing magnesiumsilicate post-perovskite Sample: 2X1 Note: atom sites modified after communication with author American Mineralogist, 2008, 93, 533-539
9003275	CIF	Cl K0.2 Na0.8	F m -3 m	5.7044; 5.7044; 5.7044 90; 90; 90	185.622	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56405, T = 500 C, P = 23.6 kbar, cell volume = 185.62 ang**3 American Mineralogist, 2004, 89, 204-210
9000163	CIF	As1.23 Ni S0.77	P a -3	5.7053; 5.7053; 5.7053 90; 90; 90	185.71	Bayliss, P. The crystal structure of disordered gersdorffite American Mineralogist, 1968, 53, 290-293
9003279	CIF	Cl K0.2 Na0.8	F m -3 m	5.7071; 5.7071; 5.7071 90; 90; 90	185.886	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56401, T = 550 C, P = 24.5 kbar, cell volume = 185.89 ang**3 American Mineralogist, 2004, 89, 204-210
9003311	CIF	Cl Na	F m -3 m	5.7071; 5.7071; 5.7071 90; 90; 90	185.886	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416034, T = 300 C, P = 0.0 kbar, cell volume = 185.89 ang**3 American Mineralogist, 2004, 89, 204-210
9003303	CIF	Cl K0.2 Na0.8	F m -3 m	5.7084; 5.7084; 5.7084 90; 90; 90	186.013	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56441, T = 700 C, P = 28.2 kbar, cell volume = 186.01 ang**3 American Mineralogist, 2004, 89, 204-210
9003299	CIF	Cl K0.2 Na0.8	F m -3 m	5.7092; 5.7092; 5.7092 90; 90; 90	186.091	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56381, T = 650 C, P = 26.8 kbar, cell volume = 186.09 ang**3 American Mineralogist, 2004, 89, 204-210
9003287	CIF	Cl K0.2 Na0.8	F m -3 m	5.7096; 5.7096; 5.7096 90; 90; 90	186.13	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56397, T = 600 C, P = 25.4 kbar, cell volume = 186.13 ang**3 American Mineralogist, 2004, 89, 204-210
9003298	CIF	Cl K0.2 Na0.8	F m -3 m	5.7124; 5.7124; 5.7124 90; 90; 90	186.404	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56393, T = 650 C, P = 26.3 kbar, cell volume = 186.40 ang**3 American Mineralogist, 2004, 89, 204-210
9003302	CIF	Cl K0.2 Na0.8	F m -3 m	5.7133; 5.7133; 5.7133 90; 90; 90	186.492	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56385, T = 700 C, P = 27.2 kbar, cell volume = 186.49 ang**3 American Mineralogist, 2004, 89, 204-210
9003304	CIF	Cl K0.1 Na0.9	F m -3 m	5.7143; 5.7143; 5.7143 90; 90; 90	186.59	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 186.59 ang**3 American Mineralogist, 2004, 89, 204-210
9003386	CIF	Mg O3 Si	C 1 2/c 1	7.326; 6.823; 3.939 90; 107.7; 90	187.572	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 160 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9002345	CIF	Al1.305 Ca0.02 Fe0.3 K0.28 Mg1.295 Na0.16 O6 Si1.05	P 63/m	8.83; 8.83; 2.779 90; 90; 120	187.647	Gasparik, T.; Tripathi, A.; Parise, J. B. Structure of a new Al-rich phase, [K,Na].9[Mg,Fe]2[Mg,Fe,Al,Si]6O12, synthesized at 24 GPa American Mineralogist, 2000, 85, 613-618
9003384	CIF	Mg O3 Si	C 1 2/c 1	7.608; 6.823; 3.939 90; 113.4; 90	187.654	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 200 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9003288	CIF	Cl K0.2 Na0.8	F m -3 m	5.7311; 5.7311; 5.7311 90; 90; 90	188.241	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53573, T = 610 C, P = 19.6 kbar, cell volume = 188.24 ang**3 American Mineralogist, 2004, 89, 204-210
9003312	CIF	Cl Na	F m -3 m	5.732; 5.732; 5.732 90; 90; 90	188.33	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416035, T = 400 C, P = 0.0 kbar, cell volume = 188.33 ang**3 American Mineralogist, 2004, 89, 204-210
1544549	CIF	Al H3 O3	P 21 21 21	5.13972; 7.2556; 5.06349 90; 90; 90	188.826	Matsui, M.; Komatsu, K.; Ikeda, E.; Sano-Furukawa, A.; Gotou, H.; Yagi, T. The crystal structure of delta-Al(OH)3: Neutron diffraction measurements and ab initio calculations American Mineralogist, 2011, 96, 854-859
9003289	CIF	Cl K0.2 Na0.8	F m -3 m	5.7443; 5.7443; 5.7443 90; 90; 90	189.545	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53581, T = 620 C, P = 19.4 kbar, cell volume = 189.54 ang**3 American Mineralogist, 2004, 89, 204-210
9002153	CIF	Fe H2 O5 V	P -1	5.466; 5.675; 6.61 101.02; 95.1; 107.31	189.804	Schindler, M.; Hawthorne, F. C. Schubnelite, [Fe(VO4)(H2O)], a novel heteropolyhedral framework mineral American Mineralogist, 1999, 84, 665-668
9003291	CIF	Cl K0.2 Na0.8	F m -3 m	5.7483; 5.7483; 5.7483 90; 90; 90	189.941	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53585, T = 630 C, P = 19.2 kbar, cell volume = 189.94 ang**3 American Mineralogist, 2004, 89, 204-210
9003278	CIF	Cl K0.2 Na0.8	F m -3 m	5.7516; 5.7516; 5.7516 90; 90; 90	190.268	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53693, T = 550 C, P = 17.6 kbar, cell volume = 190.27 ang**3 American Mineralogist, 2004, 89, 204-210
9003292	CIF	Cl K0.2 Na0.8	F m -3 m	5.7535; 5.7535; 5.7535 90; 90; 90	190.457	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53589, T = 640 C, P = 19.0 kbar, cell volume = 190.46 ang**3 American Mineralogist, 2004, 89, 204-210
9003297	CIF	Cl K0.2 Na0.8	F m -3 m	5.7576; 5.7576; 5.7576 90; 90; 90	190.864	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53593, T = 650 C, P = 18.8 kbar, cell volume = 190.86 ang**3 American Mineralogist, 2004, 89, 204-210
9003266	CIF	Cl K0.2 Na0.8	F m -3 m	5.7615; 5.7615; 5.7615 90; 90; 90	191.252	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56361, T = 350 C, P = 12.4 kbar, cell volume = 191.25 ang**3 American Mineralogist, 2004, 89, 204-210
9003274	CIF	Cl K0.2 Na0.8	F m -3 m	5.7625; 5.7625; 5.7625 90; 90; 90	191.352	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53621, T = 500 C, P = 15.8 kbar, cell volume = 191.35 ang**3 American Mineralogist, 2004, 89, 204-210
9003265	CIF	Cl K0.2 Na0.8	F m -3 m	5.763; 5.763; 5.763 90; 90; 90	191.402	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56329, T = 350 C, P = 11.8 kbar, cell volume = 191.40 ang**3 American Mineralogist, 2004, 89, 204-210
9003313	CIF	Cl Na	F m -3 m	5.7632; 5.7632; 5.7632 90; 90; 90	191.422	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416036, T = 500 C, P = 0.0 kbar, cell volume = 191.42 ang**3 American Mineralogist, 2004, 89, 204-210
9003285	CIF	Cl K0.2 Na0.8	F m -3 m	5.7656; 5.7656; 5.7656 90; 90; 90	191.661	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56281, T = 600 C, P = 17.4 kbar, cell volume = 191.66 ang**3 American Mineralogist, 2004, 89, 204-210
9003286	CIF	Cl K0.2 Na0.8	F m -3 m	5.7658; 5.7658; 5.7658 90; 90; 90	191.681	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53633, T = 600 C, P = 17.7 kbar, cell volume = 191.68 ang**3 American Mineralogist, 2004, 89, 204-210
9003268	CIF	Cl K0.2 Na0.8	F m -3 m	5.7676; 5.7676; 5.7676 90; 90; 90	191.86	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56325, T = 400 C, P = 12.6 kbar, cell volume = 191.86 ang**3 American Mineralogist, 2004, 89, 204-210
9003300	CIF	Cl K0.2 Na0.8	F m -3 m	5.7693; 5.7693; 5.7693 90; 90; 90	192.03	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53601, T = 675 C, P = 19.0 kbar, cell volume = 192.03 ang**3 American Mineralogist, 2004, 89, 204-210
9003270	CIF	Cl K0.2 Na0.8	F m -3 m	5.7714; 5.7714; 5.7714 90; 90; 90	192.24	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56321, T = 450 C, P = 13.4 kbar, cell volume = 192.24 ang**3 American Mineralogist, 2004, 89, 204-210
9003290	CIF	Cl K0.2 Na0.8	F m -3 m	5.7733; 5.7733; 5.7733 90; 90; 90	192.43	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56289, T = 625 C, P = 17.5 kbar, cell volume = 192.43 ang**3 American Mineralogist, 2004, 89, 204-210
9003273	CIF	Cl K0.2 Na0.8	F m -3 m	5.7759; 5.7759; 5.7759 90; 90; 90	192.69	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56317, T = 500 C, P = 14.2 kbar, cell volume = 192.69 ang**3 American Mineralogist, 2004, 89, 204-210
9003296	CIF	Cl K0.2 Na0.8	F m -3 m	5.7764; 5.7764; 5.7764 90; 90; 90	192.74	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56373, T = 650 C, P = 18.2 kbar, cell volume = 192.74 ang**3 American Mineralogist, 2004, 89, 204-210
9003295	CIF	Cl K0.2 Na0.8	F m -3 m	5.7784; 5.7784; 5.7784 90; 90; 90	192.94	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56357, T = 650 C, P = 18.2 kbar, cell volume = 192.94 ang**3 American Mineralogist, 2004, 89, 204-210
9003294	CIF	Cl K0.2 Na0.8	F m -3 m	5.779; 5.779; 5.779 90; 90; 90	193	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56293, T = 650 C, P = 17.5 kbar, cell volume = 193.00 ang**3 American Mineralogist, 2004, 89, 204-210
9003277	CIF	Cl K0.2 Na0.8	F m -3 m	5.7795; 5.7795; 5.7795 90; 90; 90	193.05	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56313, T = 550 C, P = 15.0 kbar, cell volume = 193.05 ang**3 American Mineralogist, 2004, 89, 204-210
9003284	CIF	Cl K0.2 Na0.8	F m -3 m	5.7836; 5.7836; 5.7836 90; 90; 90	193.462	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56309, T = 600 C, P = 15.8 kbar, cell volume = 193.46 ang**3 American Mineralogist, 2004, 89, 204-210
1509098	CIF	Ag0.33 Pb0.34 S Sb0.33	F m -3 m	5.785; 5.785; 5.785 90; 90; 90	193.602	Hoda, S.N.; Chang, L.L.Y. Phase relations in the systems Pb S - Ag2 S - Ag2 S3 and Pb S - Ag2 S - Bi2 S3 American Mineralogist, 1975, 60, 621-633
9003264	CIF	Cl K0.2 Na0.8	F m -3 m	5.7868; 5.7868; 5.7868 90; 90; 90	193.783	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 193.78 ang**3 American Mineralogist, 2004, 89, 204-210
9000742	CIF	Cu S2	P a -3	5.7891; 5.7891; 5.7891 90; 90; 90	194.014	King, H. E.; Prewitt, C. T. Structure and symmetry of CuS2 (pyrite structure) American Mineralogist, 1979, 64, 1265-1271
9003301	CIF	Cl K0.2 Na0.8	F m -3 m	5.7898; 5.7898; 5.7898 90; 90; 90	194.084	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r56297, T = 700 C, P = 17.5 kbar, cell volume = 194.08 ang**3 American Mineralogist, 2004, 89, 204-210
9003314	CIF	Cl Na	F m -3 m	5.7915; 5.7915; 5.7915 90; 90; 90	194.255	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl416037, T = 600 C, P = 0.0 kbar, cell volume = 194.26 ang**3 American Mineralogist, 2004, 89, 204-210
9014233	CIF	H6 Mg O6 Si	P 1 21 1	5.1131; 5.1898; 7.3303 90; 90.03; 90	194.517	Wunder, B.; Jahn, S.; Koch-Muller M; Speziale, S. The 3.65 A phase, MgSi(OH)6: structural insights from DFT-calculations and T-dependent IR spectroscopy American Mineralogist, 2012, 97, 1043-1048
9003385	CIF	Mg O3 Si	C 1 2/c 1	7.526; 6.928; 4 90; 110.8; 90	194.968	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model with O3-O3-O3 angle = 180 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9003431	CIF	Mg O3 Si	P b c n	7.037; 6.928; 4 90; 90; 90	195.009	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model protopyroxene with O3-O3-O3 angle = 180 and model oxygen radius = 1 Note: Atoms Mg, Si, and O are assigned to atomic positions for convenience American Mineralogist, 2004, 89, 614-628
9016161	CIF	C0.118 H3.224 Cr0.23 Mg0.77 O2.966	R -3 m :H	3.09552; 3.09552; 23.5042 90; 90; 120	195.049	Mills, S. J.; Whitfield, P. S.; Wilson, S. A.; Woodhouse, J. N.; Dipple, G. M.; Raudsepp, M.; Francis, C. A. The crystal structure of stichtite, re-examination of barbertonite, and the nature of polytypism in MgCr hydrotalcites Note: 3R1 polytype of stichtite American Mineralogist, 2011, 96, 179-187
9000067	CIF	Cd S	F -4 3 m	5.818; 5.818; 5.818 90; 90; 90	196.934	Traill, R. J.; Boyle, R. W. Hawleyite, isometric cadmium sulphide, a new mineral American Mineralogist, 1955, 40, 555-559
9000108	CIF	Cd S	F -4 3 m	5.833; 5.833; 5.833 90; 90; 90	198.461	Skinner, B. J. Unit-cell edges of natural and synthetic sphalerites American Mineralogist, 1961, 46, 1399-1411
9001665	CIF	Al F3 H2 O2 Pb	P -1	6.27; 6.821; 5.057 90.68; 107.69; 104.46	198.618	Kampf, A. R.; Foord, E. E. Artroeite, PbAlF3(OH)2, a new mineral from the Grand Reef mine, Graham County, Arizona: Description and crystal structure American Mineralogist, 1995, 80, 179-183
9016368	CIF	H6 Mg O6 Si	P 21 21 21	5.173; 5.21; 7.371 90; 89.88; 90	198.658	Wunder, B.; Jahn, S.; Koch-Muller M; Speziale, S. The 3.65 A phase, MgSi(OH)6: structural insights from DFT-calculations and T-dependent IR spectroscopy Note: theoretical structure, GGA from P2_12_12_1 American Mineralogist, 2012, 97, 1043-1048
9016994	CIF	Mg2 O4 Si	C m c 21	2.591; 8.726; 8.794 90; 90; 90	198.824	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: DFT Optimized Note: P = 58.2 GPa American Mineralogist, 2014, 99, 35-43
9002820	CIF	C Mg O3	R -3 c :H	4.2783; 4.2783; 12.5461 90; 90; 120	198.876	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 82.6 GPa American Mineralogist, 2002, 87, 1261-1265
9000017	CIF	Fe S Sb	P 1 21/c 1	6.02; 5.93; 6.02 90; 67.87; 90	199.074	Buerger, M. J. The crystal structure of gudmundite American Mineralogist, 1939, 24, 183-184
9000563	CIF	Al K O3.996 Si	P 63 m c	5.153; 5.153; 8.682 90; 90; 120	199.651	Dollase, W. A.; Freeborn, W. P. The structure of KAlSiO4 with P6_3mc symmetry Note: natural sample of kalsilite was mixed with powdered KCl and heated, it tranformed to this phase American Mineralogist, 1977, 62, 336-340
9003225	CIF	Cl K0.4 Na0.6	F m -3 m	5.8475; 5.8475; 5.8475 90; 90; 90	199.945	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57212, T = 450 C, P = 20.6 kbar, cell volume = 199.95 ang**3 American Mineralogist, 2004, 89, 204-210
9003242	CIF	Cl K0.4 Na0.6	F m -3 m	5.8478; 5.8478; 5.8478 90; 90; 90	199.976	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54470, T = 600 C, P = 21.2 kbar, cell volume = 199.98 ang**3 American Mineralogist, 2004, 89, 204-210
9003222	CIF	Cl K0.4 Na0.6	F m -3 m	5.8498; 5.8498; 5.8498 90; 90; 90	200.181	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54490, T = 400 C, P = 16.9 kbar, cell volume = 200.18 ang**3 American Mineralogist, 2004, 89, 204-210
9014516	CIF	H6 Mg O6 Si	P 1 21 1	5.148; 5.252; 7.404 90; 89.88; 90	200.184	Wunder, B.; Jahn, S.; Koch-Muller M; Speziale, S. The 3.65 A phase, MgSi(OH)6: structural insights from DFT-calculations and T-dependent IR spectroscopy Note: theoretical structure, GGA from Pnam American Mineralogist, 2012, 97, 1043-1048
9003235	CIF	Cl K0.4 Na0.6	F m -3 m	5.8515; 5.8515; 5.8515 90; 90; 90	200.356	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57204, T = 550 C, P = 22.9 kbar, cell volume = 200.36 ang**3 American Mineralogist, 2004, 89, 204-210
9001818	CIF	Al K O4 Si	P 3 1 c	5.157; 5.157; 8.706 90; 90; 120	200.513	Cellai, D.; Bonazzi, P.; Carpenter, M. A. Natural kalsilite, KAlSiO4, with P31c symmetry: Crystal structure and twinning American Mineralogist, 1997, 82, 276-279
9017090	CIF	Fe1.946 O3	I 1 2/a 1	7.3951; 5.0117; 5.4417 90; 95.666; 90	200.695	Peterson, K. M.; Heaney, P. J.; Post, J. E.; Eng, P. J. A refined monoclinic structure for a variety of "hydrohematite" Note: T = 38 C American Mineralogist, 2015, 100, 570-579
9003249	CIF	Cl K0.4 Na0.6	F m -3 m	5.8552; 5.8552; 5.8552 90; 90; 90	200.736	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57196, T = 650 C, P = 25.2 kbar, cell volume = 200.74 ang**3 American Mineralogist, 2004, 89, 204-210
9003230	CIF	Cl K0.4 Na0.6	F m -3 m	5.8553; 5.8553; 5.8553 90; 90; 90	200.746	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54486, T = 500 C, P = 18.6 kbar, cell volume = 200.75 ang**3 American Mineralogist, 2004, 89, 204-210
9003257	CIF	Cl K0.4 Na0.6	F m -3 m	5.8566; 5.8566; 5.8566 90; 90; 90	200.88	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57240, T = 700 C, P = 26.0 kbar, cell volume = 200.88 ang**3 American Mineralogist, 2004, 89, 204-210
9003259	CIF	Cl K0.3 Na0.7	F m -3 m	5.8568; 5.8568; 5.8568 90; 90; 90	200.901	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 200.90 ang**3 American Mineralogist, 2004, 89, 204-210
9002252	CIF	Al K O4 Si	P 63	5.1627; 5.1627; 8.706 90; 90; 120	200.957	Cellai, D.; Gesing, T. M.; Wruck, B.; Carpenter, M. A. X-ray study of the trigonal-hexagonal phase transition in metamorphic kalsilite American Mineralogist, 1999, 84, 1950-1955
9003043	CIF	O4 Pb3	P b a m	9.3812; 6.461; 3.3168 90; 90; 90	201.038	Dinnebier, R. E.; Carlson, S.; Hanfland, M.; Jansen, M. Bulk modulus and high-pressure crystal structures of minium, Pb3O4, determined by X-ray powder diffraction Sample: Phase III of Pb3O4 at 13.3 GPa American Mineralogist, 2003, 88, 996-1002
9003241	CIF	Cl K0.4 Na0.6	F m -3 m	5.8598; 5.8598; 5.8598 90; 90; 90	201.209	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54482, T = 600 C, P = 20.4 kbar, cell volume = 201.21 ang**3 American Mineralogist, 2004, 89, 204-210
9015536	CIF	Al K0.984 O4 Si	P 3 1 c	5.1531; 5.1531; 8.7523 90; 90; 120	201.275	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 100 K American Mineralogist, 2010, 95, 1027-1034
9014995	CIF	Al K0.983 O4 Si	P 3 1 c	5.156; 5.156; 8.745 90; 90; 120	201.334	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 150 K American Mineralogist, 2010, 95, 1027-1034
9016271	CIF	Al K0.987 O4 Si	P 3 1 c	5.1588; 5.1588; 8.7383 90; 90; 120	201.398	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 200 K American Mineralogist, 2010, 95, 1027-1034
9016484	CIF	Al K0.98 O4 Si	P 3 1 c	5.1589; 5.1589; 8.7438 90; 90; 120	201.532	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 175 K American Mineralogist, 2010, 95, 1027-1034
9003305	CIF	Cl K0.1 Na0.9	F m -3 m	5.8632; 5.8632; 5.8632 90; 90; 90	201.56	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k10, T = 550 C, P = 0.0 kbar, cell volume = 201.56 ang**3 American Mineralogist, 2004, 89, 204-210
9016430	CIF	Al K0.982 O4 Si	P 3 1 c	5.1627; 5.1627; 8.7352 90; 90; 120	201.631	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 250 K American Mineralogist, 2010, 95, 1027-1034
9014830	CIF	Al K0.985 O4 Si	P 3 1 c	5.1665; 5.1665; 8.7248 90; 90; 120	201.687	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 298 K American Mineralogist, 2010, 95, 1027-1034
9015139	CIF	Al K0.985 O4 Si	P 3 1 c	5.1627; 5.1627; 8.7392 90; 90; 120	201.723	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 225 K American Mineralogist, 2010, 95, 1027-1034
9016619	CIF	Al K0.986 O4 Si	P 3 1 c	5.1652; 5.1652; 8.7326 90; 90; 120	201.766	Gatta, G. D.; Angel, R. J.; Carpenter, M. A. Low-temperature behavior of natural kalsilite with P31c symmetry: An in situ single-crystal X-ray diffraction study T = 275 K American Mineralogist, 2010, 95, 1027-1034
9003256	CIF	Cl K0.4 Na0.6	F m -3 m	5.8655; 5.8655; 5.8655 90; 90; 90	201.797	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54474, T = 700 C, P = 22.1 kbar, cell volume = 201.80 ang**3 American Mineralogist, 2004, 89, 204-210
9003420	CIF	Mg O3 Si	P 1 21/c 1	7.559; 6.928; 4 90; 105.3; 90	202.051	Thompson, R. M.; Downs, R. T. Model pyroxenes II: Structural variation as a function of tetrahedral rotation model low clinopx with O3A-O3A-O3A angle = 180, O3B-O3B-O3B angle = 120, and model oxygen radius = 1 American Mineralogist, 2004, 89, 614-628
9002819	CIF	C Mg O3	R -3 c :H	4.2981; 4.2981; 12.669 90; 90; 120	202.687	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 75.7 GPa American Mineralogist, 2002, 87, 1261-1265
9003240	CIF	Cl K0.4 Na0.6	F m -3 m	5.8823; 5.8823; 5.8823 90; 90; 90	203.536	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53017, T = 600 C, P = 18.4 kbar, cell volume = 203.54 ang**3 American Mineralogist, 2004, 89, 204-210
9000523	CIF	Cu S	P 63/m m c	3.7938; 3.7938; 16.341 90; 90; 120	203.685	Evans, H. T.; Konnert, J. A. Crystal structure refinement of covellite American Mineralogist, 1976, 61, 996-1000
9003224	CIF	Cl K0.4 Na0.6	F m -3 m	5.8838; 5.8838; 5.8838 90; 90; 90	203.692	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57152, T = 450 C, P = 15.9 kbar, cell volume = 203.69 ang**3 American Mineralogist, 2004, 89, 204-210
9003306	CIF	Cl K0.1 Na0.9	F m -3 m	5.884; 5.884; 5.884 90; 90; 90	203.713	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als2k10, T = 600 C, P = 0.0 kbar, cell volume = 203.71 ang**3 American Mineralogist, 2004, 89, 204-210
9003243	CIF	Cl K0.4 Na0.6	F m -3 m	5.8843; 5.8843; 5.8843 90; 90; 90	203.744	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53021, T = 625 C, P = 18.3 kbar, cell volume = 203.74 ang**3 American Mineralogist, 2004, 89, 204-210
9000565	CIF	As0.1 Bi0.01 Co0.03 Ni0.97 S0.98 Sb0.91	P 21 3	5.886; 5.886; 5.886 90; 90; 90	203.92	Bayliss, P. Crystal structure refinement of arsenian ullmannite approximate cubic structure American Mineralogist, 1977, 62, 369-373
9000566	CIF	As0.195 Bi0.02 Co0.06 Ni1.94 S1.97 Sb1.815	P 1	5.886; 5.886; 5.886 90; 90; 90	203.92	Bayliss, P. Crystal structure refinement of arsenian ullmannite American Mineralogist, 1977, 62, 369-373
9003229	CIF	Cl K0.4 Na0.6	F m -3 m	5.8863; 5.8863; 5.8863 90; 90; 90	203.952	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57148, T = 500 C, P = 16.9 kbar, cell volume = 203.95 ang**3 American Mineralogist, 2004, 89, 204-210
9000062	CIF	Cu S	P 63/m m c	3.796; 3.796; 16.36 90; 90; 120	204.158	Berry, L. G. The crystal structure of covellite, CuS and klockmannite, CuSe American Mineralogist, 1954, 39, 504-509
9003234	CIF	Cl K0.4 Na0.6	F m -3 m	5.8884; 5.8884; 5.8884 90; 90; 90	204.17	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57144, T = 550 C, P = 17.8 kbar, cell volume = 204.17 ang**3 American Mineralogist, 2004, 89, 204-210
9003247	CIF	Cl K0.4 Na0.6	F m -3 m	5.8919; 5.8919; 5.8919 90; 90; 90	204.534	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53025, T = 650 C, P = 18.2 kbar, cell volume = 204.53 ang**3 American Mineralogist, 2004, 89, 204-210
9003250	CIF	Cl K0.4 Na0.6	F m -3 m	5.8954; 5.8954; 5.8954 90; 90; 90	204.899	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53029, T = 675 C, P = 18.1 kbar, cell volume = 204.90 ang**3 American Mineralogist, 2004, 89, 204-210
9002818	CIF	C Mg O3	R -3 c :H	4.3102; 4.3102; 12.7451 90; 90; 120	205.054	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 71.2 GPa American Mineralogist, 2002, 87, 1261-1265
9016993	CIF	Mg2 O4 Si	C m c 21	2.64; 8.596; 9.04 90; 90; 90	205.149	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: P = 58.2 GPa American Mineralogist, 2014, 99, 35-43
9003248	CIF	Cl K0.4 Na0.6	F m -3 m	5.8989; 5.8989; 5.8989 90; 90; 90	205.264	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57136, T = 650 C, P = 19.6 kbar, cell volume = 205.26 ang**3 American Mineralogist, 2004, 89, 204-210
9003255	CIF	Cl K0.4 Na0.6	F m -3 m	5.8999; 5.8999; 5.8999 90; 90; 90	205.369	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57132, T = 700 C, P = 20.6 kbar, cell volume = 205.37 ang**3 American Mineralogist, 2004, 89, 204-210
9003307	CIF	Cl K0.1 Na0.9	F m -3 m	5.9032; 5.9032; 5.9032 90; 90; 90	205.713	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als1k10, T = 650 C, P = 0.0 kbar, cell volume = 205.71 ang**3 American Mineralogist, 2004, 89, 204-210
9002817	CIF	C Mg O3	R -3 c :H	4.3138; 4.3138; 12.7762 90; 90; 120	205.898	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 70.7 GPa American Mineralogist, 2002, 87, 1261-1265
9003228	CIF	Cl K0.4 Na0.6	F m -3 m	5.9084; 5.9084; 5.9084 90; 90; 90	206.257	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54394, T = 500 C, P = 12.2 kbar, cell volume = 206.26 ang**3 American Mineralogist, 2004, 89, 204-210
9000904	CIF	Ca Ge O3	P b n m	5.2607; 5.2688; 7.4452 90; 90; 90	206.363	Sasaki, S.; Prewitt, C. T.; Liebermann, R. C. The crystal structure of CaGeO3 perovskite and the crystal chemistry of the GdFeO3-type perovskites American Mineralogist, 1983, 68, 1189-1198
9003239	CIF	Cl K0.4 Na0.6	F m -3 m	5.9108; 5.9108; 5.9108 90; 90; 90	206.509	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54426, T = 600 C, P = 14.1 kbar, cell volume = 206.51 ang**3 American Mineralogist, 2004, 89, 204-210
9003254	CIF	Cl K0.4 Na0.6	F m -3 m	5.9111; 5.9111; 5.9111 90; 90; 90	206.54	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53041, T = 700 C, P = 18.0 kbar, cell volume = 206.54 ang**3 American Mineralogist, 2004, 89, 204-210
9000184	CIF	Cl0.2 Fe0.2 H2.6 Mg0.8 O2.6	R -3 m :H	3.119; 3.119; 24.52 90; 90; 120	206.577	Allmann, R.; Donnay, J. D. H. About the structure of iowaite American Mineralogist, 1969, 54, 296-299
9003238	CIF	Cl K0.4 Na0.6	F m -3 m	5.9121; 5.9121; 5.9121 90; 90; 90	206.645	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54414, T = 600 C, P = 14.1 kbar, cell volume = 206.65 ang**3 American Mineralogist, 2004, 89, 204-210
9003233	CIF	Cl K0.4 Na0.6	F m -3 m	5.9123; 5.9123; 5.9123 90; 90; 90	206.666	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54390, T = 550 C, P = 13.2 kbar, cell volume = 206.67 ang**3 American Mineralogist, 2004, 89, 204-210
9003246	CIF	Cl K0.4 Na0.6	F m -3 m	5.9123; 5.9123; 5.9123 90; 90; 90	206.666	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54366, T = 650 C, P = 15.9 kbar, cell volume = 206.67 ang**3 American Mineralogist, 2004, 89, 204-210
9003237	CIF	Cl K0.4 Na0.6	F m -3 m	5.9146; 5.9146; 5.9146 90; 90; 90	206.907	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54382, T = 600 C, P = 14.1 kbar, cell volume = 206.91 ang**3 American Mineralogist, 2004, 89, 204-210
9000761	CIF	Co0.14 Ni0.86 S Sb	P 21 3	5.9218; 5.9218; 5.9218 90; 90; 90	207.664	Pratt, J. L.; Bayliss, P. Crystal structure refinement of a cobaltian ullmannite American Mineralogist, 1980, 65, 154-156
9003272	CIF	Cl K0.2 Na0.8	F m -3 m	5.9229; 5.9229; 5.9229 90; 90; 90	207.78	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als9k20, T = 500 C, P = 0.0 kbar, cell volume = 207.78 ang**3 American Mineralogist, 2004, 89, 204-210
9003258	CIF	Cl K0.4 Na0.6	F m -3 m	5.9236; 5.9236; 5.9236 90; 90; 90	207.853	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53049, T = 750 C, P = 17.2 kbar, cell volume = 207.85 ang**3 American Mineralogist, 2004, 89, 204-210
9003252	CIF	Cl K0.4 Na0.6	F m -3 m	5.9237; 5.9237; 5.9237 90; 90; 90	207.864	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54370, T = 700 C, P = 16.0 kbar, cell volume = 207.86 ang**3 American Mineralogist, 2004, 89, 204-210
9003253	CIF	Cl K0.4 Na0.6	F m -3 m	5.9237; 5.9237; 5.9237 90; 90; 90	207.864	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53053, T = 700 C, P = 16.3 kbar, cell volume = 207.86 ang**3 American Mineralogist, 2004, 89, 204-210
9003221	CIF	Cl K0.4 Na0.6	F m -3 m	5.9246; 5.9246; 5.9246 90; 90; 90	207.959	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 207.96 ang**3 American Mineralogist, 2004, 89, 204-210
9000767	CIF	As O5 Zn2	P -1	5.83; 6.711; 5.648 104.7; 92.3; 76.8	208.061	Bennett, T. J. Crystal structure of paradamite American Mineralogist, 1980, 65, 353-354
9000001	CIF	Pb S	F m -3 m	5.93; 5.93; 5.93 90; 90; 90	208.528	Ramsdell, L. S. The crystal structures of some metallic sulfides American Mineralogist, 1925, 10, 281-304
9001590	CIF	Al0.65 H2 Li0.33 Mn O4	R -3 m :H	2.9247; 2.9247; 28.169 90; 90; 120	208.672	Post, J. E.; Appleman, D. E. Crystal structure refinement of lithiophorite Note: U(1,2) for Mn/Al/Li/O2 have been altered to match symmetry constraints. American Mineralogist, 1994, 79, 370-374
9003276	CIF	Cl K0.2 Na0.8	F m -3 m	5.9447; 5.9447; 5.9447 90; 90; 90	210.082	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als8k20, T = 550 C, P = 0.0 kbar, cell volume = 210.08 ang**3 American Mineralogist, 2004, 89, 204-210
9002258	CIF	B F3 H3 Mg3 O3	P 63/m	8.8602; 8.8602; 3.1021 90; 90; 120	210.898	Camara, F.; Ottolini, L. New data on the crystal-chemistry of fluoborite by means of SREF, SIMS and EMP analysis Sample: Fbor HV-43 n.3 American Mineralogist, 2000, 85, 103-107
9002257	CIF	B F3 H3 Mg3 O3	P 63/m	8.8612; 8.8612; 3.1021 90; 90; 120	210.946	Camara, F.; Ottolini, L. New data on the crystal-chemistry of fluoborite by means of SREF, SIMS and EMP analysis Sample: Fbor 2V-43 n.2 American Mineralogist, 2000, 85, 103-107
9002816	CIF	C Mg O3	R -3 c :H	4.3401; 4.3401; 12.9538 90; 90; 120	211.314	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 60.2 GPa American Mineralogist, 2002, 87, 1261-1265
9001613	CIF	F3 Mg Na	P b n m	5.2386; 5.3796; 7.5052 90; 90; 90	211.508	Zhao, Y. S.; Parise, J. B.; Wang, Y.; Kusaba, K.; Vaughan, M. T.; Weidner, D. J.; Kikegawa, T.; Chen, J.; Shimomura, O. High-pressure crystal chemistry of neighborite, NaMgF3: an angle-dispersive diffraction study using monochromatic synchrotron X-radiation P = 4.9 GPa American Mineralogist, 1994, 79, 615-621
9003283	CIF	Cl K0.2 Na0.8	F m -3 m	5.963; 5.963; 5.963 90; 90; 90	212.029	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als7k20, T = 600 C, P = 0.0 kbar, cell volume = 212.03 ang**3 American Mineralogist, 2004, 89, 204-210
9003223	CIF	Cl K0.4 Na0.6	F m -3 m	5.9672; 5.9672; 5.9672 90; 90; 90	212.477	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57084, T = 450 C, P = 7.6 kbar, cell volume = 212.48 ang**3 American Mineralogist, 2004, 89, 204-210
9000079	CIF	Cu17 S9	R -3 m :R	16.16; 16.16; 16.16 13.93; 13.93; 13.93	212.849	Donnay, G.; Donnay, J. D. H.; Kullerud, G. Crystal and twin structure of digenite, Cu9S5 American Mineralogist, 1958, 43, 228-242
9003227	CIF	Cl K0.4 Na0.6	F m -3 m	5.9715; 5.9715; 5.9715 90; 90; 90	212.937	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57080, T = 500 C, P = 8.6 kbar, cell volume = 212.94 ang**3 American Mineralogist, 2004, 89, 204-210
9001966	CIF	Al H O4 Si	P 1 21/n 1	7.14409; 4.33462; 6.95253 90; 98.369; 90	213.006	Schmidt, M. W.; Finger, L. W.; Angel, R. J.; Dinnebier, R. E. Synthesis, crystal structure, and phase relations of AlSiO3OH, a high-pressure hydrous phase American Mineralogist, 1998, 83, 881-888
9002262	CIF	Al Ca F4 O2	P -1	4.94; 6.81; 6.978 101.12; 94.86; 110.07	213.435	Marchetti, F.; Perchiazzi, N. The crystal structure of gearksutite, CaAlF4(OH).H2O American Mineralogist, 2000, 85, 231-235
9003232	CIF	Cl K0.4 Na0.6	F m -3 m	5.9778; 5.9778; 5.9778 90; 90; 90	213.611	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57076, T = 550 C, P = 9.6 kbar, cell volume = 213.61 ang**3 American Mineralogist, 2004, 89, 204-210
9002815	CIF	C Mg O3	R -3 c :H	4.353; 4.353; 13.0325 90; 90; 120	213.863	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 56.6 GPa American Mineralogist, 2002, 87, 1261-1265
1556991	CIF	As4 Br0.3 Cl0.5 F0.2 H1.92 K0.52 N0.48 O6	P 6/m m m	5.2386; 5.2386; 9.014 90; 90; 120	214.23	Garavelli, A.; Mitolo, D.; Pinto, D.; Vurro, F. Lucabindiite, (K,NH4)As4O6(Cl,Br), a new fumarole mineral from the "La Fossa" crater at Vulcano, Aeolian Islands, Italy American Mineralogist, 2013, 98, 470-477
9003293	CIF	Cl K0.2 Na0.8	F m -3 m	5.9851; 5.9851; 5.9851 90; 90; 90	214.395	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als6k20, T = 650 C, P = 0.0 kbar, cell volume = 214.39 ang**3 American Mineralogist, 2004, 89, 204-210
9003216	CIF	Cl K0.5 Na0.5	F m -3 m	5.9904; 5.9904; 5.9904 90; 90; 90	214.965	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 214.96 ang**3 American Mineralogist, 2004, 89, 204-210
9003245	CIF	Cl K0.4 Na0.6	F m -3 m	5.9911; 5.9911; 5.9911 90; 90; 90	215.04	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57068, T = 650 C, P = 11.5 kbar, cell volume = 215.04 ang**3 American Mineralogist, 2004, 89, 204-210
9003260	CIF	Cl K0.3 Na0.7	F m -3 m	5.9915; 5.9915; 5.9915 90; 90; 90	215.083	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als6k30, T = 508 C, P = 0.0 kbar, cell volume = 215.08 ang**3 American Mineralogist, 2004, 89, 204-210
9003251	CIF	Cl K0.4 Na0.6	F m -3 m	5.9961; 5.9961; 5.9961 90; 90; 90	215.579	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57064, T = 700 C, P = 12.5 kbar, cell volume = 215.58 ang**3 American Mineralogist, 2004, 89, 204-210
9016992	CIF	Mg2 O4 Si	P 1	4.695; 9.201; 5.311 93.1; 107.264; 98.133	215.766	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: P = 52.4 GPa American Mineralogist, 2014, 99, 35-43
9010360	CIF	Ca Ir O3	C m c 21	3.101; 9.6588; 7.2111 90; 90; 90	215.986	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Sample: P = 9.72 GPa, room temp American Mineralogist, 2007, 92, 1912-1918
9010365	CIF	Ca Ir O3	C m c m	3.1011; 9.6587; 7.2111 90; 90; 90	215.991	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: P = 9.72 GPa American Mineralogist, 2007, 92, 1912-1918
9010366	CIF	Ca Ir O3	C m c m	3.1015; 9.6551; 7.2141 90; 90; 90	216.028	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: P = 9.68 GPa American Mineralogist, 2007, 92, 1912-1918
9003805	CIF	F3 Mg Na	P b n m	5.2768; 5.4213; 7.5548 90; 90; 90	216.121	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 25 C American Mineralogist, 2005, 90, 1534-1539
9003184	CIF	Cl K0.6 Na0.4	F m -3 m	6.0023; 6.0023; 6.0023 90; 90; 90	216.248	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54811, T = 400 C, P = 15.0 kbar, cell volume = 216.25 ang**3 American Mineralogist, 2004, 89, 204-210
9003187	CIF	Cl K0.6 Na0.4	F m -3 m	6.0041; 6.0041; 6.0041 90; 90; 90	216.443	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54807, T = 450 C, P = 15.7 kbar, cell volume = 216.44 ang**3 American Mineralogist, 2004, 89, 204-210
9003211	CIF	Cl K0.6 Na0.4	F m -3 m	6.0042; 6.0042; 6.0042 90; 90; 90	216.454	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54835, T = 650 C, P = 19.6 kbar, cell volume = 216.45 ang**3 American Mineralogist, 2004, 89, 204-210
9003204	CIF	Cl K0.6 Na0.4	F m -3 m	6.005; 6.005; 6.005 90; 90; 90	216.54	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54827, T = 600 C, P = 18.8 kbar, cell volume = 216.54 ang**3 American Mineralogist, 2004, 89, 204-210
9003212	CIF	Cl K0.6 Na0.4	F m -3 m	6.0062; 6.0062; 6.0062 90; 90; 90	216.67	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54783, T = 650 C, P = 19.6 kbar, cell volume = 216.67 ang**3 American Mineralogist, 2004, 89, 204-210
9003193	CIF	Cl K0.6 Na0.4	F m -3 m	6.0066; 6.0066; 6.0066 90; 90; 90	216.714	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54803, T = 500 C, P = 16.5 kbar, cell volume = 216.71 ang**3 American Mineralogist, 2004, 89, 204-210
9003197	CIF	Cl K0.6 Na0.4	F m -3 m	6.0081; 6.0081; 6.0081 90; 90; 90	216.876	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54795, T = 550 C, P = 17.3 kbar, cell volume = 216.88 ang**3 American Mineralogist, 2004, 89, 204-210
9001804	CIF	Cu2.13 Li2 Mg0.87 O12 Si4	P -1	5.7068; 7.4784; 5.2193 99.911; 97.436; 84.52	216.966	Horiuchi, H.; Saito, A.; Tachi, T.; Nagasawa, H. Structure of synthetic Li2(Mg,Cu)Cu2[Si2O6]2: A unique chain silicate related to pyroxene American Mineralogist, 1997, 82, 143-148
9002814	CIF	C Mg O3	R -3 c :H	4.3675; 4.3675; 13.1387 90; 90; 120	217.045	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 51.8 GPa American Mineralogist, 2002, 87, 1261-1265
9003261	CIF	Cl K0.3 Na0.7	F m -3 m	6.0103; 6.0103; 6.0103 90; 90; 90	217.114	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als5k30, T = 550 C, P = 0.0 kbar, cell volume = 217.11 ang**3 American Mineralogist, 2004, 89, 204-210
9003215	CIF	Cl K0.6 Na0.4	F m -3 m	6.0134; 6.0134; 6.0134 90; 90; 90	217.45	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54787, T = 700 C, P = 19.7 kbar, cell volume = 217.45 ang**3 American Mineralogist, 2004, 89, 204-210
9010364	CIF	Ca Ir O3	C m c m	3.1084; 9.6931; 7.228 90; 90; 90	217.78	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: P = 7.95 GPa American Mineralogist, 2007, 92, 1912-1918
9003806	CIF	F3 Mg Na	P b n m	5.3047; 5.4282; 7.5864 90; 90; 90	218.45	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 200 C American Mineralogist, 2005, 90, 1534-1539
9001248	CIF	Ir S Sb	P c a 21	6.025; 6.025; 6.025 90; 90; 90	218.711	Bayliss, P. Crystal chemistry and crystallography of some minerals within the pyrite group American Mineralogist, 1989, 74, 1168-1176
9004000	CIF	Fe1.68 Ni2.32 P	P 21 3	6.025; 6.025; 6.025 90; 90; 90	218.711	Pratesi, G.; Bindi, L.; Moggi-Cecchi V Icosahedral coordination of phosphorus in the crystal structure of melliniite, a new phosphide mineral from the Northwest Africa 1054 acapulcoite American Mineralogist, 2006, 91, 451-454
9003262	CIF	Cl K0.3 Na0.7	F m -3 m	6.031; 6.031; 6.031 90; 90; 90	219.365	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als4k30, T = 600 C, P = 0.0 kbar, cell volume = 219.37 ang**3 American Mineralogist, 2004, 89, 204-210
9000794	CIF	Cu5 H4 O12 P2	P -1	4.445; 5.873; 8.668 103.62; 90.35; 93.02	219.574	Shoemaker, G. L.; Anderson, J. B.; Kostiner, E. The crystal structure of a third polymorph of Cu5(PO4)2(OH)4 Note: related to pseudomalachite and ludjibaite American Mineralogist, 1981, 66, 169-175
9003203	CIF	Cl K0.6 Na0.4	F m -3 m	6.0385; 6.0385; 6.0385 90; 90; 90	220.185	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r52081, T = 600 C, P = 15.4 kbar, cell volume = 220.18 ang**3 American Mineralogist, 2004, 89, 204-210
9010363	CIF	Ca Ir O3	C m c m	3.1193; 9.7505; 7.2496 90; 90; 90	220.495	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: P = 5.40 GPa American Mineralogist, 2007, 92, 1912-1918
9003210	CIF	Cl K0.6 Na0.4	F m -3 m	6.0427; 6.0427; 6.0427 90; 90; 90	220.644	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r52085, T = 650 C, P = 15.1 kbar, cell volume = 220.64 ang**3 American Mineralogist, 2004, 89, 204-210
9016918	CIF	Fe2 O4 Ti	P m m a	9.059; 2.659; 9.166 90; 90; 90	220.79	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 61 GPa American Mineralogist, 2013, 98, 736-744
9003192	CIF	Cl K0.6 Na0.4	F m -3 m	6.0448; 6.0448; 6.0448 90; 90; 90	220.875	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r52113, T = 500 C, P = 11.9 kbar, cell volume = 220.87 ang**3 American Mineralogist, 2004, 89, 204-210
9003807	CIF	F3 Mg Na	P b n m	5.335; 5.4352; 7.6227 90; 90; 90	221.034	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 400 C American Mineralogist, 2005, 90, 1534-1539
1537754	CIF	Pb2 S Se	F m -3 m	6.048; 6.048; 6.048 90; 90; 90	221.226	Coleman, R.G. The natural occurence of galena-clausthalite solid solution series American Mineralogist, 1959, 44, 166-175
9003196	CIF	Cl K0.6 Na0.4	F m -3 m	6.0483; 6.0483; 6.0483 90; 90; 90	221.259	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r52105, T = 550 C, P = 12.6 kbar, cell volume = 221.26 ang**3 American Mineralogist, 2004, 89, 204-210
9003263	CIF	Cl K0.3 Na0.7	F m -3 m	6.0524; 6.0524; 6.0524 90; 90; 90	221.709	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k30, T = 650 C, P = 0.0 kbar, cell volume = 221.71 ang**3 American Mineralogist, 2004, 89, 204-210
9002813	CIF	C Mg O3	R -3 c :H	4.3895; 4.3895; 13.2938 90; 90; 120	221.825	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 45.6 GPa American Mineralogist, 2002, 87, 1261-1265
9003183	CIF	Cl K0.6 Na0.4	F m -3 m	6.0541; 6.0541; 6.0541 90; 90; 90	221.896	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 221.90 ang**3 American Mineralogist, 2004, 89, 204-210
9003214	CIF	Cl K0.6 Na0.4	F m -3 m	6.0574; 6.0574; 6.0574 90; 90; 90	222.259	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r52097, T = 700 C, P = 15.3 kbar, cell volume = 222.26 ang**3 American Mineralogist, 2004, 89, 204-210
9017051	CIF	F3 Mg Na	P b n m	5.32517; 5.47795; 7.62732 90; 90; 90	222.497	Knight, K. S. A high-resolution powder neutron diffraction study of the crystal structure of neighborite (NaMgF3) between 9 and 440 K Note: T = 9 K American Mineralogist, 2014, 99, 824-838
9003226	CIF	Cl K0.4 Na0.6	F m -3 m	6.0623; 6.0623; 6.0623 90; 90; 90	222.799	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als6k40, T = 500 C, P = 0.0 kbar, cell volume = 222.80 ang**3 American Mineralogist, 2004, 89, 204-210
9003185	CIF	Cl K0.6 Na0.4	F m -3 m	6.0684; 6.0684; 6.0684 90; 90; 90	223.472	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54935, T = 450 C, P = 8.8 kbar, cell volume = 223.47 ang**3 American Mineralogist, 2004, 89, 204-210
9003189	CIF	Cl K0.6 Na0.4	F m -3 m	6.0687; 6.0687; 6.0687 90; 90; 90	223.505	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54907, T = 500 C, P = 9.8 kbar, cell volume = 223.50 ang**3 American Mineralogist, 2004, 89, 204-210
9003186	CIF	Cl K0.6 Na0.4	F m -3 m	6.069; 6.069; 6.069 90; 90; 90	223.538	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54883, T = 450 C, P = 8.9 kbar, cell volume = 223.54 ang**3 American Mineralogist, 2004, 89, 204-210
9003202	CIF	Cl K0.6 Na0.4	F m -3 m	6.0691; 6.0691; 6.0691 90; 90; 90	223.549	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54863, T = 600 C, P = 12.4 kbar, cell volume = 223.55 ang**3 American Mineralogist, 2004, 89, 204-210
9003808	CIF	F3 Mg Na	P b n m	5.3678; 5.444; 7.6587 90; 90; 90	223.805	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 600 C American Mineralogist, 2005, 90, 1534-1539
9002808	CIF	Ca0.35 O3 Sr0.65 Ti	P b n m	5.415; 5.412; 7.637 90; 90; 90	223.81	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: P = 7.0 GPa, Ca.35Sr.65TiO3 American Mineralogist, 2002, 87, 1183-1189
9003209	CIF	Cl K0.6 Na0.4	F m -3 m	6.0717; 6.0717; 6.0717 90; 90; 90	223.837	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54867, T = 650 C, P = 12.4 kbar, cell volume = 223.84 ang**3 American Mineralogist, 2004, 89, 204-210
9003191	CIF	Cl K0.6 Na0.4	F m -3 m	6.0724; 6.0724; 6.0724 90; 90; 90	223.914	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54879, T = 500 C, P = 10.1 kbar, cell volume = 223.91 ang**3 American Mineralogist, 2004, 89, 204-210
9003190	CIF	Cl K0.6 Na0.4	F m -3 m	6.0731; 6.0731; 6.0731 90; 90; 90	223.991	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54927, T = 500 C, P = 9.8 kbar, cell volume = 223.99 ang**3 American Mineralogist, 2004, 89, 204-210
9003201	CIF	Cl K0.6 Na0.4	F m -3 m	6.0747; 6.0747; 6.0747 90; 90; 90	224.168	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54911, T = 600 C, P = 11.5 kbar, cell volume = 224.17 ang**3 American Mineralogist, 2004, 89, 204-210
9010362	CIF	Ca Ir O3	C m c m	3.1332; 9.8271; 7.2805 90; 90; 90	224.169	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: P = 2.17 GPa American Mineralogist, 2007, 92, 1912-1918
9002801	CIF	Ca O3 Ti	P b n m	5.4043; 5.4224; 7.651 90; 90; 90	224.207	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: CaTiO3, x = 0.0 American Mineralogist, 2002, 87, 1183-1189
9003151	CIF	Cl K0.8 Na0.2	F m -3 m	6.0757; 6.0757; 6.0757 90; 90; 90	224.279	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55493, T = 450 C, P = 19.0 kbar, cell volume = 224.28 ang**3 American Mineralogist, 2004, 89, 204-210
9003148	CIF	Cl K0.8 Na0.2	F m -3 m	6.076; 6.076; 6.076 90; 90; 90	224.312	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55501, T = 350 C, P = 17.2 kbar, cell volume = 224.31 ang**3 American Mineralogist, 2004, 89, 204-210
9003195	CIF	Cl K0.6 Na0.4	F m -3 m	6.0785; 6.0785; 6.0785 90; 90; 90	224.589	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54875, T = 550 C, P = 11.2 kbar, cell volume = 224.59 ang**3 American Mineralogist, 2004, 89, 204-210
9002807	CIF	Ca0.35 O3 Sr0.65 Ti	P b n m	5.423; 5.42; 7.647 90; 90; 90	224.766	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: P = 4.1 GPa, Ca.35Sr.65TiO3 American Mineralogist, 2002, 87, 1183-1189
9002812	CIF	C Mg O3	R -3 c :H	4.4044; 4.4044; 13.3797 90; 90; 120	224.776	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 41.3 GPa American Mineralogist, 2002, 87, 1261-1265
9003231	CIF	Cl K0.4 Na0.6	F m -3 m	6.0833; 6.0833; 6.0833 90; 90; 90	225.122	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als5k40, T = 550 C, P = 0.0 kbar, cell volume = 225.12 ang**3 American Mineralogist, 2004, 89, 204-210
9000047	CIF	Hg Se	F -4 3 m	6.084; 6.084; 6.084 90; 90; 90	225.2	Earley, J. W. Description and syntheses of the selenide minerals American Mineralogist, 1950, 35, 337-364
9015717	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9541; 7.9494; 5.7186 90; 90; 90	225.211	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 184 K American Mineralogist, 2012, 97, 707-712
9001614	CIF	F3 Mg Na	P b n m	5.3609; 5.4828; 7.667 90; 90; 90	225.354	Zhao, Y. S.; Parise, J. B.; Wang, Y.; Kusaba, K.; Vaughan, M. T.; Weidner, D. J.; Kikegawa, T.; Chen, J.; Shimomura, O. High-pressure crystal chemistry of neighborite, NaMgF3: an angle-dispersive diffraction study using monochromatic synchrotron X-radiation P = room pressure following decompression American Mineralogist, 1994, 79, 615-621
9016917	CIF	Fe2 O4 Ti	C m c m	2.685; 9.228; 9.099 90; 90; 90	225.448	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 50 GPa American Mineralogist, 2013, 98, 736-744
9001612	CIF	F3 Mg Na	P b n m	5.3603; 5.4884; 7.666 90; 90; 90	225.53	Zhao, Y. S.; Parise, J. B.; Wang, Y.; Kusaba, K.; Vaughan, M. T.; Weidner, D. J.; Kikegawa, T.; Chen, J.; Shimomura, O. High-pressure crystal chemistry of neighborite, NaMgF3: an angle-dispersive diffraction study using monochromatic synchrotron X-radiation P = room pressure American Mineralogist, 1994, 79, 615-621
9003213	CIF	Cl K0.6 Na0.4	F m -3 m	6.0873; 6.0873; 6.0873 90; 90; 90	225.566	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r54871, T = 700 C, P = 12.4 kbar, cell volume = 225.57 ang**3 American Mineralogist, 2004, 89, 204-210
9016597	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9564; 7.9536; 5.7253 90; 90; 90	225.698	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 224 K American Mineralogist, 2012, 97, 707-712
9010354	CIF	Ca Ir O3	C m c m	3.13451; 9.87568; 7.29518 90; 90; 90	225.825	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: T = 2.0 K, P = 1 bar American Mineralogist, 2007, 92, 1912-1918
9010359	CIF	Ca Ir O3	C m c 21	3.1345; 9.87576; 7.29521 90; 90; 90	225.827	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Sample: T = 2.0 K American Mineralogist, 2007, 92, 1912-1918
9003809	CIF	F3 Mg Na	P b n m	5.3915; 5.4532; 7.6831 90; 90; 90	225.89	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 700 C American Mineralogist, 2005, 90, 1534-1539
9010355	CIF	Ca Ir O3	C m c m	3.13493; 9.87709; 7.29562 90; 90; 90	225.901	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: T = 100.0 K, P = 1 bar American Mineralogist, 2007, 92, 1912-1918
9010356	CIF	Ca Ir O3	C m c m	3.13622; 9.88198; 7.29871 90; 90; 90	226.202	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: T = 205.0 K, P = 1 bar American Mineralogist, 2007, 92, 1912-1918
9016338	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9579; 7.9595; 5.7328 90; 90; 90	226.23	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 265 K American Mineralogist, 2012, 97, 707-712
9010358	CIF	Ca Ir O3	C m c 21	3.13642; 9.88337; 7.29891 90; 90; 90	226.255	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Sample: T = 293 K American Mineralogist, 2007, 92, 1912-1918
9010357	CIF	Ca Ir O3	C m c m	3.13645; 9.88352; 7.29903 90; 90; 90	226.264	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: T = 293 K, P = 1 bar American Mineralogist, 2007, 92, 1912-1918
9010481	CIF	Ca Ir O3	C m c m	3.1472; 9.8655; 7.3018 90; 90; 90	226.711	Sugahara, M.; Yoshiasa, A.; Yoneda, A.; Hashimoto, T.; Sakai, S.; Okube, M.; Nakatsuka, A.; Ohtaka, O. Single-crystal X-ray diffraction study of CaIrO3 Note: post-perovskite structure American Mineralogist, 2008, 93, 1148-1152
9015425	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9596; 7.9644; 5.7416 90; 90; 90	226.795	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 300 K American Mineralogist, 2012, 97, 707-712
9015942	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9596; 7.9644; 5.7416 90; 90; 90	226.795	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 300 K, low-temperature experiment American Mineralogist, 2012, 97, 707-712
9010361	CIF	Ca Ir O3	C m c m	3.14341; 9.8816; 7.3021 90; 90; 90	226.817	Martin, C. D.; Smith, R. I.; Marshall, W. G.; Parise, J. B. High-pressure structure and bonding in CaIrO3: the structure model of MgSiO3 post-perovskite investigated with time-of-flight neutron powder diffraction Note: Ca(z) and O(y) changed to match normal structure Sample: P = 0.00 GPa American Mineralogist, 2007, 92, 1912-1918
9015320	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9615; 7.9629; 5.7428 90; 90; 90	226.886	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 300 K, high-temperature experiment American Mineralogist, 2012, 97, 707-712
5000085	CIF	C Ca O3	P m c n	4.9614; 7.9671; 5.7404 90; 90; 90	226.9	de Villiers, J. P. R. Crystal structures of aragonite, strontianite, and witherite American Mineralogist, 1971, 56, 758-767
9000229	CIF	C Ca O3	P m c n	4.9616; 7.9705; 5.7394 90; 90; 90	226.973	Dal Negro, A.; Ungaretti, L. Refinement of the crystal structure of aragonite American Mineralogist, 1971, 56, 768-772
9000253	CIF	Ag2 S	P 1 21/n 1	4.229; 6.931; 7.862 90; 99.61; 90	227.211	Wiegers, G. A. The crystal structure of the low-temperature form of silver selenide American Mineralogist, 1971, 56, 1882-1888
9003236	CIF	Cl K0.4 Na0.6	F m -3 m	6.1046; 6.1046; 6.1046 90; 90; 90	227.495	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als4k40, T = 600 C, P = 0.0 kbar, cell volume = 227.50 ang**3 American Mineralogist, 2004, 89, 204-210
9000033	CIF	Al3 Ca H6 O14 P S	R -3 m :R	6.75; 6.75; 6.75 62.07; 62.07; 62.07	227.532	Pabst, A. Some computations on svanbergite, woodhouseite and alunite American Mineralogist, 1947, 32, 16-30
9014833	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9638; 7.9698; 5.7545 90; 90; 90	227.651	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 359 K American Mineralogist, 2012, 97, 707-712
9000120	CIF	Al2 Be O4	P n m a	9.404; 5.476; 4.427 90; 90; 90	227.974	Farrell, E. F.; Fang, J. H.; Newnham, R. E. Refinement of the chrysoberyl structure American Mineralogist, 1963, 48, 804-810
9003810	CIF	F3 Mg Na	P b n m	5.4162; 5.4629; 7.7092 90; 90; 90	228.101	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 800 C American Mineralogist, 2005, 90, 1534-1539
9014618	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9667; 7.9775; 5.768 90; 90; 90	228.539	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 415 K American Mineralogist, 2012, 97, 707-712
9003178	CIF	Cl K0.7 Na0.3	F m -3 m	6.1161; 6.1161; 6.1161 90; 90; 90	228.783	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 228.78 ang**3 American Mineralogist, 2004, 89, 204-210
9003158	CIF	Cl K0.8 Na0.2	F m -3 m	6.1188; 6.1188; 6.1188 90; 90; 90	229.086	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53197, T = 500 C, P = 18.0 kbar, cell volume = 229.09 ang**3 American Mineralogist, 2004, 89, 204-210
9014887	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9692; 7.9873; 5.7796 90; 90; 90	229.395	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 471 K American Mineralogist, 2012, 97, 707-712
9002802	CIF	Ca0.75 O3 Sr0.25 Ti	P b n m	5.444; 5.4591; 7.7213 90; 90; 90	229.472	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: Ca.75Sr.25TiO3, x = 0.25 American Mineralogist, 2002, 87, 1183-1189
9003163	CIF	Cl K0.8 Na0.2	F m -3 m	6.1224; 6.1224; 6.1224 90; 90; 90	229.491	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53201, T = 550 C, P = 18.1 kbar, cell volume = 229.49 ang**3 American Mineralogist, 2004, 89, 204-210
9003217	CIF	Cl K0.5 Na0.5	F m -3 m	6.1262; 6.1262; 6.1262 90; 90; 90	229.918	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als4k50, T = 500 C, P = 0.0 kbar, cell volume = 229.92 ang**3 American Mineralogist, 2004, 89, 204-210
9003244	CIF	Cl K0.4 Na0.6	F m -3 m	6.1264; 6.1264; 6.1264 90; 90; 90	229.941	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k40, T = 650 C, P = 0.0 kbar, cell volume = 229.94 ang**3 American Mineralogist, 2004, 89, 204-210
9003169	CIF	Cl K0.8 Na0.2	F m -3 m	6.13; 6.13; 6.13 90; 90; 90	230.346	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53205, T = 600 C, P = 18.1 kbar, cell volume = 230.35 ang**3 American Mineralogist, 2004, 89, 204-210
9015886	CIF	C Ca0.997 O3 Sr0.003	P m c n	4.9723; 7.9983; 5.7931 90; 90; 90	230.391	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 527 K American Mineralogist, 2012, 97, 707-712
9003811	CIF	F3 Mg Na	P b n m	5.448; 5.4677; 7.7366 90; 90; 90	230.458	Chen, J.; Liu, H.; Martin, C. D.; Parise, J. B.; Weidner, D. J. Crystal chemistry of NaMgF3 perovskite and high pressure and temperature Sample: P = 4 GPa, T = 900 C American Mineralogist, 2005, 90, 1534-1539
9003157	CIF	Cl K0.8 Na0.2	F m -3 m	6.1321; 6.1321; 6.1321 90; 90; 90	230.583	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55377, T = 500 C, P = 15.0 kbar, cell volume = 230.58 ang**3 American Mineralogist, 2004, 89, 204-210
9001525	CIF	Al K O8 Si3	I 4/m	9.237; 9.237; 2.706 90; 90; 90	230.882	Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T. High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 4.47 GPa American Mineralogist, 1993, 78, 493-499
9003162	CIF	Cl K0.8 Na0.2	F m -3 m	6.1348; 6.1348; 6.1348 90; 90; 90	230.888	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55373, T = 550 C, P = 16.0 kbar, cell volume = 230.89 ang**3 American Mineralogist, 2004, 89, 204-210
9000010	CIF	Be4 Na O7 Sb	P 63 m c	5.47; 5.47; 8.92 90; 90; 120	231.137	Pauling, L.; Klug, H. P.; Winchell, A. N. The crystal structure of swedenborgite, NaBe4SbO7 American Mineralogist, 1935, 20, 492-501
9003168	CIF	Cl K0.8 Na0.2	F m -3 m	6.1371; 6.1371; 6.1371 90; 90; 90	231.148	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55369, T = 600 C, P = 17.0 kbar, cell volume = 231.15 ang**3 American Mineralogist, 2004, 89, 204-210
9000002	CIF	Pb Se	F m -3 m	6.14; 6.14; 6.14 90; 90; 90	231.476	Ramsdell, L. S. The crystal structures of some metallic sulfides American Mineralogist, 1925, 10, 281-304
9002803	CIF	Ca0.5 O3 Sr0.5 Ti	P b n m	5.4677; 5.4713; 7.739 90; 90; 90	231.515	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: Ca.5Sr.5TiO3, x = 0.5 American Mineralogist, 2002, 87, 1183-1189
9000063	CIF	Cu Se	P 63/m m c	3.938; 3.938; 17.25 90; 90; 120	231.671	Berry, L. G. The crystal structure of covellite, CuS and klockmannite, CuSe American Mineralogist, 1954, 39, 504-509
9003177	CIF	Cl K0.8 Na0.2	F m -3 m	6.1421; 6.1421; 6.1421 90; 90; 90	231.713	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55365, T = 700 C, P = 19.0 kbar, cell volume = 231.71 ang**3 American Mineralogist, 2004, 89, 204-210
9001524	CIF	Al K O8 Si3	I 4/m	9.247; 9.247; 2.71 90; 90; 90	231.724	Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T. High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 3.60 GPa American Mineralogist, 1993, 78, 493-499
9003174	CIF	Cl K0.8 Na0.2	F m -3 m	6.1441; 6.1441; 6.1441 90; 90; 90	231.94	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53217, T = 650 C, P = 18.6 kbar, cell volume = 231.94 ang**3 American Mineralogist, 2004, 89, 204-210
9010367	CIF	Al O4 P	P 31 2 1	4.9458; 4.9458; 10.9526 90; 90; 120	232.018	Onac, B. P.; Effenberger, H. S. Re-examination of berlinite (AlPO4) from the Cioclovina Cave, Romania American Mineralogist, 2007, 92, 1998-2001
9003218	CIF	Cl K0.5 Na0.5	F m -3 m	6.1449; 6.1449; 6.1449 90; 90; 90	232.03	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k50, T = 550 C, P = 0.0 kbar, cell volume = 232.03 ang**3 American Mineralogist, 2004, 89, 204-210
9001523	CIF	Al K O8 Si3	I 4/m	9.261; 9.261; 2.712 90; 90; 90	232.598	Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T. High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 2.95 GPa American Mineralogist, 1993, 78, 493-499
9016991	CIF	Mg2 O4 Si	P b n m	4.5232; 9.274; 5.5467 90; 90; 90	232.674	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: P = 45.3 GPa American Mineralogist, 2014, 99, 35-43
9002804	CIF	Ca0.4 O3 Sr0.6 Ti	P b n m	5.4784; 5.4791; 7.7517 90; 90; 90	232.68	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: Ca.4Sr.6TiO3, x = 0.6 American Mineralogist, 2002, 87, 1183-1189
9002805	CIF	Ca0.35 O3 Sr0.65 Ti	I 4/m c m	5.4801; 5.4801; 7.7619 90; 90; 90	233.101	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: Ca.35Sr.65TiO3, x = 0.65 American Mineralogist, 2002, 87, 1183-1189
9003118	CIF	Cl K	F m -3 m	6.1573; 6.1573; 6.1573 90; 90; 90	233.438	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57701, T = 100 C, P = 15.0 kbar, cell volume = 233.44 ang**3 American Mineralogist, 2004, 89, 204-210
9001522	CIF	Al K O8 Si3	I 4/m	9.285; 9.285; 2.717 90; 90; 90	234.236	Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T. High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 1.64 GPa American Mineralogist, 1993, 78, 493-499
9003219	CIF	Cl K0.5 Na0.5	F m -3 m	6.166; 6.166; 6.166 90; 90; 90	234.429	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als2k50, T = 600 C, P = 0.0 kbar, cell volume = 234.43 ang**3 American Mineralogist, 2004, 89, 204-210
9003123	CIF	Cl K	F m -3 m	6.1671; 6.1671; 6.1671 90; 90; 90	234.554	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57705, T = 200 C, P = 15.7 kbar, cell volume = 234.55 ang**3 American Mineralogist, 2004, 89, 204-210
9000032	CIF	Al3 H6 O14 P S Sr	R -3 m :R	6.89; 6.89; 6.89 60.63; 60.63; 60.63	234.573	Pabst, A. Some computations on svanbergite, woodhouseite and alunite trial C American Mineralogist, 1947, 32, 16-30
9003152	CIF	Cl K0.8 Na0.2	F m -3 m	6.1674; 6.1674; 6.1674 90; 90; 90	234.588	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53261, T = 475 C, P = 12.1 kbar, cell volume = 234.59 ang**3 American Mineralogist, 2004, 89, 204-210
9003156	CIF	Cl K0.8 Na0.2	F m -3 m	6.1696; 6.1696; 6.1696 90; 90; 90	234.839	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53253, T = 500 C, P = 12.3 kbar, cell volume = 234.84 ang**3 American Mineralogist, 2004, 89, 204-210
9003161	CIF	Cl K0.8 Na0.2	F m -3 m	6.1709; 6.1709; 6.1709 90; 90; 90	234.988	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53249, T = 550 C, P = 13.3 kbar, cell volume = 234.99 ang**3 American Mineralogist, 2004, 89, 204-210
9013162	CIF	S Zn	P 63 m c	3.812; 3.812; 18.68999 90; 90; 120	235.204	Myer, G. H. Hydrothermal wurtzite at Thomaston Dam, Connecticut American Mineralogist, 1962, 47, 977-979
9002332	CIF	Fe3 O4	B b m m	9.273; 9.239; 2.746 90; 90; 90	235.259	Haavik, C.; Stolen, S.; Fjellvag, H.; Hanfland, M.; Hausermann, D. Equation of state of magnetite and its high-pressure modification: Thermodynamics of the Fe-O system at high pressure Sample at 40 GPa, CaTi2O4 structure type American Mineralogist, 2000, 85, 514-523
9003167	CIF	Cl K0.8 Na0.2	F m -3 m	6.1756; 6.1756; 6.1756 90; 90; 90	235.525	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53237, T = 600 C, P = 14.0 kbar, cell volume = 235.53 ang**3 American Mineralogist, 2004, 89, 204-210
9002811	CIF	C Mg O3	R -3 c :H	4.456; 4.456; 13.7092 90; 90; 120	235.74	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 29.9 GPa American Mineralogist, 2002, 87, 1261-1265
9003176	CIF	Cl K0.8 Na0.2	F m -3 m	6.1781; 6.1781; 6.1781 90; 90; 90	235.811	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53221, T = 700 C, P = 15.6 kbar, cell volume = 235.81 ang**3 American Mineralogist, 2004, 89, 204-210
9016427	CIF	Cr2 O3	R -3 c :H	4.605; 4.605; 12.854 90; 90; 120	236.063	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 70.4 GPa American Mineralogist, 2012, 97, 1764-1770
9003173	CIF	Cl K0.8 Na0.2	F m -3 m	6.1804; 6.1804; 6.1804 90; 90; 90	236.075	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r53233, T = 650 C, P = 14.6 kbar, cell volume = 236.07 ang**3 American Mineralogist, 2004, 89, 204-210
9001521	CIF	Al K O8 Si3	I 4/m	9.315; 9.315; 2.723 90; 90; 90	236.273	Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T. High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 0.00 GPa American Mineralogist, 1993, 78, 493-499
9003127	CIF	Cl K	F m -3 m	6.1835; 6.1835; 6.1835 90; 90; 90	236.43	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57709, T = 300 C, P = 16.2 kbar, cell volume = 236.43 ang**3 American Mineralogist, 2004, 89, 204-210
9003144	CIF	Cl K0.8 Na0.2	F m -3 m	6.1839; 6.1839; 6.1839 90; 90; 90	236.476	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 23 C, P = 0.0 kbar, cell volume = 236.48 ang**3 American Mineralogist, 2004, 89, 204-210
9003569	CIF	Ca O4 S	P b n m	6.3365; 7.5347; 4.9532 90; 90; 90	236.484	Crichton, W. A.; Parise, J. B.; Antao, S. M.; Grzechnik, A. Evidence for monazite-, barite-, and AgMnO4 (distorted barite)-type structures of CaSO4 at high pressure and temperature Sample: P = 21 GPa, T = 1450 K American Mineralogist, 2005, 90, 22-27
1527409	CIF	B H2 Na O7 Si2	P 1 21 1	7.9814; 6.0657; 4.9054 90; 93.95; 90	236.92	Ghose, S.; Wan, C. Structural chemistry of borosilicates, part II: Searlesite, Na B Si2 O5 (O H): Absolute configuration, hydrogen locations, and refinement of the structure American Mineralogist, 1976, 61, 123-129
9003155	CIF	Cl K0.8 Na0.2	F m -3 m	6.1884; 6.1884; 6.1884 90; 90; 90	236.993	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55577, T = 500 C, P = 9.6 kbar, cell volume = 236.99 ang**3 American Mineralogist, 2004, 89, 204-210
9003220	CIF	Cl K0.5 Na0.5	F m -3 m	6.1899; 6.1899; 6.1899 90; 90; 90	237.165	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als1k50, T = 650 C, P = 0.0 kbar, cell volume = 237.16 ang**3 American Mineralogist, 2004, 89, 204-210
9000252	CIF	Ag2 Se	P 21 21 21	4.333; 7.062; 7.764 90; 90; 90	237.576	Wiegers, G. A. The crystal structure of the low-temperature form of silver selenide American Mineralogist, 1971, 56, 1882-1888
9003188	CIF	Cl K0.6 Na0.4	F m -3 m	6.1957; 6.1957; 6.1957 90; 90; 90	237.832	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als13k60, T = 500 C, P = 0.0 kbar, cell volume = 237.83 ang**3 American Mineralogist, 2004, 89, 204-210
9002806	CIF	O3 Sr Ti	P b n m	5.5202; 5.5202; 7.8067 90; 90; 90	237.891	Yamanaka, T.; Hirai, M.; Komatsu, Y. Structure change of Ca1-xSrxTiO3 perovskite with composition and pressure Sample: SrTiO3, x = 1.0 American Mineralogist, 2002, 87, 1183-1189
9003132	CIF	Cl K	F m -3 m	6.1982; 6.1982; 6.1982 90; 90; 90	238.12	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57713, T = 400 C, P = 16.5 kbar, cell volume = 238.12 ang**3 American Mineralogist, 2004, 89, 204-210
9003160	CIF	Cl K0.8 Na0.2	F m -3 m	6.1999; 6.1999; 6.1999 90; 90; 90	238.316	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55589, T = 550 C, P = 10.1 kbar, cell volume = 238.32 ang**3 American Mineralogist, 2004, 89, 204-210
9003165	CIF	Cl K0.8 Na0.2	F m -3 m	6.2049; 6.2049; 6.2049 90; 90; 90	238.894	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55593, T = 600 C, P = 7.5 kbar, cell volume = 238.89 ang**3 American Mineralogist, 2004, 89, 204-210
9014067	CIF	Cr2 O3	R -3 c :H	4.629; 4.629; 12.88 90; 90; 120	239.013	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 63.9 GPa American Mineralogist, 2012, 97, 1764-1770
9001846	CIF	Na O4 U	R -3 m :H	3.954; 3.954; 17.66 90; 90; 120	239.108	Finch, R. J.; Ewing, R. C. Clarkeite: New chemical and structural data American Mineralogist, 1997, 82, 607-619
9003126	CIF	Cl K	F m -3 m	6.2084; 6.2084; 6.2084 90; 90; 90	239.298	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57741, T = 300 C, P = 11.7 kbar, cell volume = 239.30 ang**3 American Mineralogist, 2004, 89, 204-210
9003146	CIF	Cl K0.8 Na0.2	F m -3 m	6.21; 6.21; 6.21 90; 90; 90	239.483	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55633, T = 300 C, P = 3.6 kbar, cell volume = 239.48 ang**3 American Mineralogist, 2004, 89, 204-210
9003136	CIF	Cl K	F m -3 m	6.2126; 6.2126; 6.2126 90; 90; 90	239.784	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57717, T = 500 C, P = 17.1 kbar, cell volume = 239.78 ang**3 American Mineralogist, 2004, 89, 204-210
9003117	CIF	Cl K	F m -3 m	6.2137; 6.2137; 6.2137 90; 90; 90	239.911	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57749, T = 100 C, P = 8.6 kbar, cell volume = 239.91 ang**3 American Mineralogist, 2004, 89, 204-210
9010260	CIF	Al2 Mg O4	P b n m	9.9498; 8.6468; 2.7901 90; 90; 90	240.043	Kojitani, H.; Hisatomi, R.; Akaogi, M. High-pressure relations and crystal chemistry of calcium ferrite-type solid solutions in the system MgAl2O4-Mg2SiO4 Note: synthesized from MgAl2O4 spinel at 27 GPa and 2200 C Note: data collected at room conditinos American Mineralogist, 2007, 92, 1112-1118
9003194	CIF	Cl K0.6 Na0.4	F m -3 m	6.216; 6.216; 6.216 90; 90; 90	240.178	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als12k60, T = 550 C, P = 0.0 kbar, cell volume = 240.18 ang**3 American Mineralogist, 2004, 89, 204-210
9003150	CIF	Cl K0.8 Na0.2	F m -3 m	6.2169; 6.2169; 6.2169 90; 90; 90	240.282	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55629, T = 400 C, P = 5.2 kbar, cell volume = 240.28 ang**3 American Mineralogist, 2004, 89, 204-210
9003172	CIF	Cl K0.8 Na0.2	F m -3 m	6.217; 6.217; 6.217 90; 90; 90	240.294	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55597, T = 650 C, P = 7.7 kbar, cell volume = 240.29 ang**3 American Mineralogist, 2004, 89, 204-210
9003122	CIF	Cl K	F m -3 m	6.2187; 6.2187; 6.2187 90; 90; 90	240.491	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57745, T = 200 C, P = 10.2 kbar, cell volume = 240.49 ang**3 American Mineralogist, 2004, 89, 204-210
9010152	CIF	Al1.01 H12 O12 Sb Zn1.99	P -3	5.327; 5.327; 9.792 90; 90; 120	240.64	Bonaccorsi, E.; Merlino, S.; Orlandi, P. Zincalstibite, a new mineral, and cualstibite: Crystal chemical and structural relationships Locality: Lucchetti marble quarry, Fantiscritti marble basin, Carrara, Apuan Alps, Tuscany, Italy American Mineralogist, 2007, 92, 198-203
9003131	CIF	Cl K	F m -3 m	6.2232; 6.2232; 6.2232 90; 90; 90	241.013	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57737, T = 400 C, P = 13.4 kbar, cell volume = 241.01 ang**3 American Mineralogist, 2004, 89, 204-210
9003154	CIF	Cl K0.8 Na0.2	F m -3 m	6.2263; 6.2263; 6.2263 90; 90; 90	241.374	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55617, T = 500 C, P = 7.0 kbar, cell volume = 241.37 ang**3 American Mineralogist, 2004, 89, 204-210
9003175	CIF	Cl K0.8 Na0.2	F m -3 m	6.2264; 6.2264; 6.2264 90; 90; 90	241.385	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55601, T = 700 C, P = 8.0 kbar, cell volume = 241.39 ang**3 American Mineralogist, 2004, 89, 204-210
9003166	CIF	Cl K0.8 Na0.2	F m -3 m	6.2268; 6.2268; 6.2268 90; 90; 90	241.432	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r55613, T = 600 C, P = 7.5 kbar, cell volume = 241.43 ang**3 American Mineralogist, 2004, 89, 204-210
9003140	CIF	Cl K	F m -3 m	6.2282; 6.2282; 6.2282 90; 90; 90	241.595	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57725, T = 600 C, P = 17.3 kbar, cell volume = 241.59 ang**3 American Mineralogist, 2004, 89, 204-210
9003135	CIF	Cl K	F m -3 m	6.2289; 6.2289; 6.2289 90; 90; 90	241.676	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57733, T = 500 C, P = 15.0 kbar, cell volume = 241.68 ang**3 American Mineralogist, 2004, 89, 204-210
9002810	CIF	C Mg O3	R -3 c :H	4.4818; 4.4818; 13.915 90; 90; 120	242.058	Fiquet, G.; Guyot, F.; Kunz, M.; Matas, J.; Andrault, D.; Hanfland, M. Structural refinements of magnesite at very high pressure Sample: P = 23.1 GPa American Mineralogist, 2002, 87, 1261-1265
9003199	CIF	Cl K0.6 Na0.4	F m -3 m	6.2339; 6.2339; 6.2339 90; 90; 90	242.259	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als5k60, T = 600 C, P = 0.0 kbar, cell volume = 242.26 ang**3 American Mineralogist, 2004, 89, 204-210
9003139	CIF	Cl K	F m -3 m	6.2341; 6.2341; 6.2341 90; 90; 90	242.282	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57721, T = 600 C, P = 17.3 kbar, cell volume = 242.28 ang**3 American Mineralogist, 2004, 89, 204-210
9003141	CIF	Cl K0.9 Na0.1	F m -3 m	6.2347; 6.2347; 6.2347 90; 90; 90	242.352	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 242.35 ang**3 American Mineralogist, 2004, 89, 204-210
9003200	CIF	Cl K0.6 Na0.4	F m -3 m	6.2355; 6.2355; 6.2355 90; 90; 90	242.445	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als6k60, T = 600 C, P = 0.0 kbar, cell volume = 242.45 ang**3 American Mineralogist, 2004, 89, 204-210
9003198	CIF	Cl K0.6 Na0.4	F m -3 m	6.2395; 6.2395; 6.2395 90; 90; 90	242.912	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als11k60, T = 600 C, P = 0.0 kbar, cell volume = 242.91 ang**3 American Mineralogist, 2004, 89, 204-210
9001028	CIF	B2 Ca2 Cu H12 O12	P -1	5.7617; 7.9774; 5.6488 109.611; 91.473; 83.686	243.076	Nakai, I.; Okada, H.; Masutomi, K.; Koyama, E.; Nagashima, K. Henmilite, Ca2Cu(OH)4[B(OH)4]2, a new mineral from Fuka, Okayama Prefecture, Japan. II. Crystal structure American Mineralogist, 1986, 71, 1236-1239
9000034	CIF	Al3 H6 K O14 S2	R -3 m :R	7.058; 7.058; 7.058 59.08; 59.08; 59.08	243.402	Pabst, A. Some computations on svanbergite, woodhouseite and alunite American Mineralogist, 1947, 32, 16-30
9017112	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.5927; 4.5927; 13.332 90; 90; 120	243.535	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p10 Note: P = 40.80 GPa American Mineralogist, 2015, 100, 2625-2629
9001701	CIF	Al1.6 O8 Pb2.198 Si2.4	I 4	9.414; 9.414; 2.75 90; 90; 90	243.714	Downs, R. T.; Hazen, R. M.; Finger, L. W. Crystal chemistry of lead aluminosilicate hollandite: A new high-pressure synthetic phase with octahedral Si American Mineralogist, 1995, 80, 937-940
9003145	CIF	Cl K0.8 Na0.2	F m -3 m	6.2517; 6.2517; 6.2517 90; 90; 90	244.34	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als11k80, T = 300 C, P = 0.0 kbar, cell volume = 244.34 ang**3 American Mineralogist, 2004, 89, 204-210
9002500	CIF	B2 Ca2 O7 Si	P -4 21 m	7.1248; 7.1248; 4.8177 90; 90; 90	244.56	Giuli, G.; Bindi, L.; Bonazzi, P. Rietveld refinement of okayamalite, Ca2SiB2O7: Structural evidence for the B/Si ordered distribution American Mineralogist, 2000, 85, 1512-1515
9003179	CIF	Cl K0.7 Na0.3	F m -3 m	6.2559; 6.2559; 6.2559 90; 90; 90	244.833	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als4k70, T = 500 C, P = 0.0 kbar, cell volume = 244.83 ang**3 American Mineralogist, 2004, 89, 204-210
9015442	CIF	Cr2 O3	R -3 c :H	4.674; 4.674; 12.941 90; 90; 120	244.836	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 55.1 GPa American Mineralogist, 2012, 97, 1764-1770
9003121	CIF	Cl K	F m -3 m	6.2593; 6.2593; 6.2593 90; 90; 90	245.232	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57765, T = 200 C, P = 5.5 kbar, cell volume = 245.23 ang**3 American Mineralogist, 2004, 89, 204-210
9003207	CIF	Cl K0.6 Na0.4	F m -3 m	6.2595; 6.2595; 6.2595 90; 90; 90	245.256	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als8k60, T = 650 C, P = 0.0 kbar, cell volume = 245.25 ang**3 American Mineralogist, 2004, 89, 204-210
9003206	CIF	Cl K0.6 Na0.4	F m -3 m	6.26; 6.26; 6.26 90; 90; 90	245.314	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als7k60, T = 650 C, P = 0.0 kbar, cell volume = 245.31 ang**3 American Mineralogist, 2004, 89, 204-210
9003205	CIF	Cl K0.6 Na0.4	F m -3 m	6.2601; 6.2601; 6.2601 90; 90; 90	245.326	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als9k60, T = 650 C, P = 0.0 kbar, cell volume = 245.33 ang**3 American Mineralogist, 2004, 89, 204-210
9003116	CIF	Cl K	F m -3 m	6.261; 6.261; 6.261 90; 90; 90	245.432	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57761, T = 100 C, P = 3.9 kbar, cell volume = 245.43 ang**3 American Mineralogist, 2004, 89, 204-210
9003208	CIF	Cl K0.6 Na0.4	F m -3 m	6.2626; 6.2626; 6.2626 90; 90; 90	245.62	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als10k60, T = 650 C, P = 0.0 kbar, cell volume = 245.62 ang**3 American Mineralogist, 2004, 89, 204-210
9003147	CIF	Cl K0.8 Na0.2	F m -3 m	6.2644; 6.2644; 6.2644 90; 90; 90	245.832	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als10k80, T = 350 C, P = 0.0 kbar, cell volume = 245.83 ang**3 American Mineralogist, 2004, 89, 204-210
9003125	CIF	Cl K	F m -3 m	6.2682; 6.2682; 6.2682 90; 90; 90	246.28	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57769, T = 300 C, P = 6.7 kbar, cell volume = 246.28 ang**3 American Mineralogist, 2004, 89, 204-210
1531584	CIF	As2 Bi2 Co0.5 Fe1.5 H2.5 O12	P -1	4.566; 6.158; 8.972 95.52; 99.51; 92.85	247.095	Krause, W.; Bernhardt, H.J.; McCammon, C.; Effenberger, H. Neustaedtelite and cobaltneustaedtelite, the Fe(3+)- and Co(2+)- analogues of medenbachite American Mineralogist, 2002, 87, 726-738
9002726	CIF	Al0.05 As2 Bi1.96 Ca0.04 Co0.38 Cu0.01 Fe1.5 H2 Ni0.04 O12 Zn0.01	P -1	4.566; 6.158; 8.972 95.52; 99.51; 92.85	247.095	Krause, W.; Bernhardt, H. J.; McCammon, C. A.; Effenberger, H. Neustadtelite and cobaltneustadtelite, the Fe- and Co- analogues of medenbachite American Mineralogist, 2002, 87, 726-738
9014824	CIF	Cr2 O3	R -3 c :H	4.69; 4.69; 12.972 90; 90; 120	247.106	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 50.2 GPa American Mineralogist, 2012, 97, 1764-1770
9003180	CIF	Cl K0.7 Na0.3	F m -3 m	6.2763; 6.2763; 6.2763 90; 90; 90	247.236	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k70, T = 550 C, P = 0.0 kbar, cell volume = 247.23 ang**3 American Mineralogist, 2004, 89, 204-210
9010401	CIF	Mg O3 Si	P 1 21/m 1	9.477; 6.205; 4.256 90; 98.75; 90	247.36	Tschauner, O.; Kiefer, B.; Liu, H.; Sinogeikin, S.; Somayazulu, M.; Luo, S.-N. Possible structural polymorphism in Al-bearing magnesiumsilicate post-perovskite Sample: 3X1 American Mineralogist, 2008, 93, 533-539
9003149	CIF	Cl K0.8 Na0.2	F m -3 m	6.278; 6.278; 6.278 90; 90; 90	247.437	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als9k80, T = 400 C, P = 0.0 kbar, cell volume = 247.44 ang**3 American Mineralogist, 2004, 89, 204-210
9003130	CIF	Cl K	F m -3 m	6.2796; 6.2796; 6.2796 90; 90; 90	247.626	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57773, T = 400 C, P = 8.6 kbar, cell volume = 247.63 ang**3 American Mineralogist, 2004, 89, 204-210
9017111	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6024; 4.6024; 13.517 90; 90; 120	247.959	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p9 Note: P = 37.58 GPa American Mineralogist, 2015, 100, 2625-2629
9001734	CIF	As2 Bi2 Cu0.88 Fe1.12 O12	P -1	4.581; 6.178; 8.969 94.29; 99.93; 94.85	248.102	Krause, W.; Bernhardt, H. J.; Gebert, W.; Graetsch, H.; Belendorff, K.; Petitjean, K. Medenbachite, Bi2Fe(Cu,Fe)(O,OH)2(OH)2(AsO4)2, a new mineral species: Its description and crystal structure Sample: 8.0.376, single Bi atom model American Mineralogist, 1996, 81, 505-512
9001735	CIF	As2 Bi2 Cu0.88 Fe1.12 O12	P -1	4.581; 6.178; 8.969 94.29; 99.93; 94.85	248.102	Krause, W.; Bernhardt, H. J.; Gebert, W.; Graetsch, H.; Belendorff, K.; Petitjean, K. Medenbachite, Bi2Fe(Cu,Fe)(O,OH)2(OH)2(AsO4)2, a new mineral species: Its description and crystal structure Sample: 8.0.376, split Bi atom model American Mineralogist, 1996, 81, 505-512
9003115	CIF	Cl K	F m -3 m	6.2843; 6.2843; 6.2843 90; 90; 90	248.182	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57797, T = 100 C, P = 1.9 kbar, cell volume = 248.18 ang**3 American Mineralogist, 2004, 89, 204-210
9003120	CIF	Cl K	F m -3 m	6.2849; 6.2849; 6.2849 90; 90; 90	248.253	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57793, T = 200 C, P = 3.1 kbar, cell volume = 248.25 ang**3 American Mineralogist, 2004, 89, 204-210
9003134	CIF	Cl K	F m -3 m	6.286; 6.286; 6.286 90; 90; 90	248.384	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57777, T = 500 C, P = 8.9 kbar, cell volume = 248.38 ang**3 American Mineralogist, 2004, 89, 204-210
9001705	CIF	Ca1.11 Na1.8 O14 Si6	P 3 2 1	7.903; 7.903; 4.595 90; 90; 120	248.542	Gasparik, T.; Parise, J. B.; Eiben, B. A.; Hriljac, J. A. Stability and structure of a new high-pressure silicate, Na1.8Ca1.1Si6O14 Sample: data collected on a diffractometer Note: U(2,3) for Si2, Na/Ca altered to match symmetry constraints. American Mineralogist, 1995, 80, 1269-1276
9001706	CIF	Ca1.11 Na1.8 O14 Si6	P 3 2 1	7.903; 7.903; 4.595 90; 90; 120	248.542	Gasparik, T.; Parise, J. B.; Eiben, B. A.; Hriljac, J. A. Stability and structure of a new high-pressure silicate, Na1.8Ca1.1Si6O14 Sample: data collected on an image plate Note: U(2,3) for Si2, Na/Ca altered to match symmetry constraints. American Mineralogist, 1995, 80, 1269-1276
9003112	CIF	Cl K	F m -3 m	6.2879; 6.2879; 6.2879 90; 90; 90	248.609	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515031, T = 25 C, P = 0.0 kbar, cell volume = 248.61 ang**3 American Mineralogist, 2004, 89, 204-210
9003181	CIF	Cl K0.7 Na0.3	F m -3 m	6.2962; 6.2962; 6.2962 90; 90; 90	249.595	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als2k70, T = 600 C, P = 0.0 kbar, cell volume = 249.59 ang**3 American Mineralogist, 2004, 89, 204-210
9002026	CIF	Fe3 O4	P b c m	2.7992; 9.4097; 9.4832 90; 90; 90	249.784	Fei, Y.; Frost, D. J.; Mao, H. K.; Prewitt, C. T.; Hausermann, D. In situ structure determination of the high-pressure phase of Fe3O4 Sample data recorded at P = 23.96 GPa, T = = 823 K American Mineralogist, 1999, 84, 203-206
9003113	CIF	Cl K	F m -3 m	6.2987; 6.2987; 6.2987 90; 90; 90	249.892	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57689, T = 36 C, P = 0.4 kbar, cell volume = 249.89 ang**3 American Mineralogist, 2004, 89, 204-210
9017110	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.61; 4.61; 13.582 90; 90; 120	249.975	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p8 Note: P = 36.20 GPa American Mineralogist, 2015, 100, 2625-2629
9003129	CIF	Cl K	F m -3 m	6.3012; 6.3012; 6.3012 90; 90; 90	250.19	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57789, T = 400 C, P = 6.1 kbar, cell volume = 250.19 ang**3 American Mineralogist, 2004, 89, 204-210
9015692	CIF	Cr2 O3	R -3 c :H	4.714; 4.714; 13.029 90; 90; 120	250.738	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 44.8 GPa American Mineralogist, 2012, 97, 1764-1770
9003138	CIF	Cl K	F m -3 m	6.3092; 6.3092; 6.3092 90; 90; 90	251.144	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: r57781, T = 600 C, P = 9.9 kbar, cell volume = 251.14 ang**3 American Mineralogist, 2004, 89, 204-210
9003153	CIF	Cl K0.8 Na0.2	F m -3 m	6.3108; 6.3108; 6.3108 90; 90; 90	251.335	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als7k80, T = 500 C, P = 0.0 kbar, cell volume = 251.33 ang**3 American Mineralogist, 2004, 89, 204-210
9003114	CIF	Cl K	F m -3 m	6.3122; 6.3122; 6.3122 90; 90; 90	251.502	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515032, T = 100 C, P = 0.0 kbar, cell volume = 251.50 ang**3 American Mineralogist, 2004, 89, 204-210
9000942	CIF	Al Ca0.592 F2 H Mn0.401 Na O5 P	P 1 21/m 1	5.457; 7.151; 6.836 90; 109.36; 90	251.677	Pajunen, A.; Lahti, S. I. The crystal structure of viitaniemiite American Mineralogist, 1984, 69, 961-966
9001949	CIF	O4 P Sc	I 41/a m d :2	6.589; 6.589; 5.806 90; 90; 90	252.067	Bernhard, F.; Walter, F.; Ettinger, K.; Taucher, J.; Mereiter, K. Pretulite, ScPO4, a new scandium mineral from the Styrian and Lower Austrian lazulite occurrences, Austria American Mineralogist, 1998, 83, 625-630
9003182	CIF	Cl K0.7 Na0.3	F m -3 m	6.3194; 6.3194; 6.3194 90; 90; 90	252.364	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als1k70, T = 650 C, P = 0.0 kbar, cell volume = 252.36 ang**3 American Mineralogist, 2004, 89, 204-210
1521374	CIF	Mg O3 Si	R -3 :H	4.686; 4.686; 13.291 90; 90; 120	252.751	Karki, B.B.; Duan, W.; da Silva, C.R.S.; Wentzcovitch, R.M. Ab initio structure of Mg Si O3 ilmenite at high pressure American Mineralogist, 2000, 85, 317-320
9017109	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6193; 4.6193; 13.696 90; 90; 120	253.091	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p7 Note: P = 33.56 GPa American Mineralogist, 2015, 100, 2625-2629
9003159	CIF	Cl K0.8 Na0.2	F m -3 m	6.3272; 6.3272; 6.3272 90; 90; 90	253.3	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als6k80, T = 550 C, P = 0.0 kbar, cell volume = 253.30 ang**3 American Mineralogist, 2004, 89, 204-210
9014261	CIF	Cr2 O3	R -3 c :H	4.737; 4.737; 13.071 90; 90; 120	254.007	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 39.7 GPa American Mineralogist, 2012, 97, 1764-1770
9001140	CIF	Al0.04 O7 Sc1.84 Si1.96 Y0.16	C 1 2/m 1	6.527; 8.507; 4.691 90; 102.78; 90	254.016	Bianchi, R.; Pilati, T.; Diella, V.; Gamaccioli, C. M.; Mannucci, G. A re-examination of thortveitite Sample 4 from Malagasy Republic American Mineralogist, 1988, 73, 601-607
9003752	CIF	Mg O3 Si	R -3 :H	4.688; 4.688; 13.354 90; 90; 120	254.166	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 7.8 GPa American Mineralogist, 2005, 90, 1301-1307
9003119	CIF	Cl K	F m -3 m	6.3361; 6.3361; 6.3361 90; 90; 90	254.37	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515033, T = 200 C, P = 0.0 kbar, cell volume = 254.37 ang**3 American Mineralogist, 2004, 89, 204-210
9015600	CIF	C Ca0.147 O3 Sr0.853	P m c n	5.0914; 8.3519; 5.9901 90; 90; 90	254.716	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 300 K American Mineralogist, 2012, 97, 707-712
9000003	CIF	Pb Te	F m -3 m	6.34; 6.34; 6.34 90; 90; 90	254.84	Ramsdell, L. S. The crystal structures of some metallic sulfides American Mineralogist, 1925, 10, 281-304
5000093	CIF	C O3 Sr	P m c n	5.09; 8.358; 5.997 90; 90; 90	255.1	de Villiers, J. P. R. Crystal structures of aragonite, strontianite, and witherite American Mineralogist, 1971, 56, 758-767
9003568	CIF	Ca O4 S	P 1 21/n 1	6.3769; 6.6439; 6.1667 90; 102.22; 90	255.348	Crichton, W. A.; Parise, J. B.; Antao, S. M.; Grzechnik, A. Evidence for monazite-, barite-, and AgMnO4 (distorted barite)-type structures of CaSO4 at high pressure and temperature Sample: P = 11.8 GPa American Mineralogist, 2005, 90, 22-27
9000691	CIF	O4 Si Zr	I 41/a m d :2	6.5531; 6.5531; 5.9519 90; 90; 90	255.593	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 2, P = 48.1 kbar American Mineralogist, 1979, 64, 196-201
9003164	CIF	Cl K0.8 Na0.2	F m -3 m	6.3484; 6.3484; 6.3484 90; 90; 90	255.854	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als5k80, T = 600 C, P = 0.0 kbar, cell volume = 255.85 ang**3 American Mineralogist, 2004, 89, 204-210
9017108	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6278; 4.6278; 13.797 90; 90; 120	255.897	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p6 Note: P = 31.19 GPa American Mineralogist, 2015, 100, 2625-2629
9003751	CIF	Mg O3 Si	R -3 :H	4.697; 4.697; 13.408 90; 90; 120	256.174	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 5.7 GPa American Mineralogist, 2005, 90, 1301-1307
9000690	CIF	O4 Si Zr	I 41/a m d :2	6.5592; 6.5592; 5.9553 90; 90; 90	256.215	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 2, P = 42.0 kbar American Mineralogist, 1979, 64, 196-201
9017107	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6301; 4.6301; 13.83 90; 90; 120	256.764	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p5 Note: P = 30.48 GPa American Mineralogist, 2015, 100, 2625-2629
9014594	CIF	Cr2 O3	R -3 c :H	4.756; 4.756; 13.109 90; 90; 120	256.793	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 35.4 GPa American Mineralogist, 2012, 97, 1764-1770
9000689	CIF	O4 Si Zr	I 41/a m d :2	6.565; 6.565; 5.9583 90; 90; 90	256.798	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 2, P = 37.1 kbar American Mineralogist, 1979, 64, 196-201
9016798	CIF	Fe0.26 H1.32 O4 Ti1.467	P 1 21/c 1	7.5259; 4.5741; 9.854 90; 130.784; 90	256.847	Grey, I. E.; Bordet, P.; Wilson, N. C.; Townend, R.; Bastow, T. J.; Brunelli, M. A new Al-rich hydroxylian pseudorutile from Kalimantan, Indonesia American Mineralogist, 2010, 95, 161-170
9000852	CIF	Hf O4 Si	I 41/a m d :2	6.5725; 6.5725; 5.9632 90; 90; 90	257.597	Speer, J. A.; Cooper, B. J. Crystal structure of synthetic hafnon, HfSiO4, comparison with zircon and the actinide orthosilicates American Mineralogist, 1982, 67, 804-808
9003124	CIF	Cl K	F m -3 m	6.363; 6.363; 6.363 90; 90; 90	257.624	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515034, T = 300 C, P = 0.0 kbar, cell volume = 257.62 ang**3 American Mineralogist, 2004, 89, 204-210
1538013	CIF	As8 Ni11	I 41/a m d :2	3.4362; 3.4362; 21.821 90; 90; 90	257.651	Fleet, M.E. The crystal structure of maucherite American Mineralogist, 1973, 58, 203-210
9000688	CIF	O4 Si Zr	I 41/a m d :2	6.5737; 6.5737; 5.9638 90; 90; 90	257.717	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 1, P = 28.9 kbar American Mineralogist, 1979, 64, 196-201
9003170	CIF	Cl K0.8 Na0.2	F m -3 m	6.3651; 6.3651; 6.3651 90; 90; 90	257.879	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k80, T = 650 C, P = 0.0 kbar, cell volume = 257.88 ang**3 American Mineralogist, 2004, 89, 204-210
9001139	CIF	Al0.04 O7 Sc1.6 Si1.96 Y0.4	C 1 2/m 1	6.582; 8.555; 4.693 90; 102.59; 90	257.904	Bianchi, R.; Pilati, T.; Diella, V.; Gamaccioli, C. M.; Mannucci, G. A re-examination of thortveitite Sample 3 from Flat, Evje American Mineralogist, 1988, 73, 601-607
9001138	CIF	Al0.04 O7 Sc1.38 Si1.96 Y0.62	C 1 2/m 1	6.587; 8.547; 4.695 90; 102.65; 90	257.908	Bianchi, R.; Pilati, T.; Diella, V.; Gamaccioli, C. M.; Mannucci, G. A re-examination of thortveitite Sample 2 from Setesdalen American Mineralogist, 1988, 73, 601-607
9003142	CIF	Cl K0.9 Na0.1	F m -3 m	6.3654; 6.3654; 6.3654 90; 90; 90	257.915	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als3k90, T = 500 C, P = 0.0 kbar, cell volume = 257.91 ang**3 American Mineralogist, 2004, 89, 204-210
9000687	CIF	O4 Si Zr	I 41/a m d :2	6.5808; 6.5808; 5.967 90; 90; 90	258.412	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 2, P = 23.2 kbar American Mineralogist, 1979, 64, 196-201
9003750	CIF	Mg O3 Si	R -3 :H	4.707; 4.707; 13.474 90; 90; 120	258.533	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 2.5 GPa American Mineralogist, 2005, 90, 1301-1307
9003171	CIF	Cl K0.8 Na0.2	F m -3 m	6.3714; 6.3714; 6.3714 90; 90; 90	258.645	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als4k80, T = 650 C, P = 0.0 kbar, cell volume = 258.64 ang**3 American Mineralogist, 2004, 89, 204-210
9000686	CIF	O4 Si Zr	I 41/a m d :2	6.5849; 6.5849; 5.9693 90; 90; 90	258.834	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 2, P = 17.4 kbar American Mineralogist, 1979, 64, 196-201
9000685	CIF	O4 Si Zr	I 41/a m d :2	6.5927; 6.5927; 5.9742 90; 90; 90	259.661	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 1, P = 9.8 kbar American Mineralogist, 1979, 64, 196-201
9016799	CIF	Al Ca F14 Mg3 Na3	R -3 m :R	7.1756; 7.1756; 7.1756 59.867; 59.867; 59.867	260.464	Mumme, W. G.; Grey, I. E.; Birch, W. D.; Pring, A.; Bougerol, C.; Wilson, N. C. Coulsellite, CaNa3AlMg3F14, a rhombohedral pyrochlore with 1:3 ordering in both A and B sites, from the Cleveland mine, Tasmania, Australia American Mineralogist, 2010, 95, 736-740
9017106	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6416; 4.6416; 13.967 90; 90; 120	260.597	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p4 Note: P = 27.45 GPa American Mineralogist, 2015, 100, 2625-2629
9003128	CIF	Cl K	F m -3 m	6.3884; 6.3884; 6.3884 90; 90; 90	260.721	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515035, T = 400 C, P = 0.0 kbar, cell volume = 260.72 ang**3 American Mineralogist, 2004, 89, 204-210
9000684	CIF	O4 Si Zr	I 41/a m d :2	6.6042; 6.6042; 5.9796 90; 90; 90	260.803	Hazen, R. M.; Finger, L. W. Crystal structure and compressibility of zircon at high pressure crystal No. 1, 1 atm - before P American Mineralogist, 1979, 64, 196-201
9010292	CIF	C K O3	P 21/b 1 1	10.024; 6.912; 4.1868 115.92; 90; 90	260.905	Komatsu, K.; Kagi, H.; Nagai, T.; Kuribayashi, T.; Parise, J. B.; Kudoh, Y. Single-crystal X-ray diffraction study of high-pressure phases of KHCO3 Sample: phase IV, P = 4.6 GPa Note: high-pressure polymorph of kalcinite American Mineralogist, 2007, 92, 1270-1275
9014203	CIF	Cr2 O3	R -3 c :H	4.785; 4.785; 13.162 90; 90; 120	260.986	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 29.6 GPa American Mineralogist, 2012, 97, 1764-1770
5000119	CIF	Zr Si O4	I 41/a m d :2	6.607; 6.607; 5.982 90; 90; 90	261.1	Robinson, K.; Gibbs, G. V.; Ribbe, P. H. The structure of zircon: A comparison with garnet American Mineralogist, 1971, 56, 782-790
9002554	CIF	O4 Si Zr	I 41/a m d :2	6.6102; 6.6102; 5.986 90; 90; 90	261.557	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: pure zircon #38 American Mineralogist, 2001, 86, 681-689
1526018	CIF	O4 P0.012 Si0.988 Sm0.01 Zr0.99	I 41/a m d :2	6.6119; 6.6119; 5.983 90; 90; 90	261.56	Finch, R.J.; Hanchar, J.M.; Burns, P.C.; Hoskin, P.W.O. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002557	CIF	O4 Si Zr	I 41/a m d :2	6.6119; 6.6119; 5.983 90; 90; 90	261.56	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Sm+P (28) American Mineralogist, 2001, 86, 681-689
9000273	CIF	Mg2 O4 Si	C 1 2/m 1	10.03; 5.77; 4.52 90; 90; 90	261.586	Baur, W. H. Computer-simulated crystal structures of observed and hypothetical Mg2SiO4 polymorphs of low and high density Model III American Mineralogist, 1972, 57, 709-731
9002555	CIF	O4 Si Zr	I 41/a m d :2	6.6139; 6.6139; 5.985 90; 90; 90	261.806	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Dy (15) American Mineralogist, 2001, 86, 681-689
1552503	CIF	Cr2 Mg O4	C m c m	2.85107; 9.4893; 9.67853 90; 90; 90	261.849	Ishii, T.; Kojitani, H.; Fujino, K.; Yusa, H.; Mori, D.; Inaguma, Y.; Matsushita, Y.; Yamamura, K.; Akaogi, M. High-pressure high-temperature transitions in MgCr2O4 and crystal structures of new Mg2Cr2O5 and post-spinel MgCr2O4 phases with implications for ultrahigh-pressure chromitites in ophiolites American Mineralogist, 2015, 100, 59-65
9000828	CIF	O4 Ti V	P 1 21/c 1	7.494; 4.552; 10.005 90; 129.79; 90	262.251	Grey, I. E.; Nickel, E. H. Tivanite, a new oxyhydroxide mineral from Western Australia, and its structural relationship to rutile and diaspore American Mineralogist, 1981, 66, 866-871
1526017	CIF	Dy0.015 O4 Si1.016 Zr0.985	I 41/a m d :2	6.6175; 6.6175; 5.989 90; 90; 90	262.266	Finch, R.J.; Hanchar, J.M.; Hoskin, P.W.O.; Burns, P.C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002556	CIF	O4 Si Zr	I 41/a m d :2	6.6175; 6.6175; 5.989 90; 90; 90	262.266	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Dy (12) American Mineralogist, 2001, 86, 681-689
9001137	CIF	Al0.04 O7 Sc1.12 Si1.96 Y0.88	C 1 2/m 1	6.65; 8.616; 4.686 90; 102.2; 90	262.427	Bianchi, R.; Pilati, T.; Diella, V.; Gamaccioli, C. M.; Mannucci, G. A re-examination of thortveitite Sample 1 from Iveland American Mineralogist, 1988, 73, 601-607
9003143	CIF	Cl K0.9 Na0.1	F m -3 m	6.4028; 6.4028; 6.4028 90; 90; 90	262.488	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: als2k90, T = 600 C, P = 0.0 kbar, cell volume = 262.49 ang**3 American Mineralogist, 2004, 89, 204-210
1526019	CIF	Gd0.024 O4 P0.024 Si0.964 Zr0.976	I 41/a m d :2	6.6213; 6.6213; 5.9879 90; 90; 90	262.519	Finch, R.J.; Hanchar, J.M.; Burns, P.C.; Hoskin, P.W.O. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002558	CIF	O4 Si Zr	I 41/a m d :2	6.6213; 6.6213; 5.9879 90; 90; 90	262.519	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Gd+P (30) American Mineralogist, 2001, 86, 681-689
9000851	CIF	Mg O3 Si	R -3 :H	4.7284; 4.7284; 13.5591 90; 90; 120	262.537	Horiuchi, H.; Hirano, M.; Ito, E.; Matsui, Y. MgSiO3 (ilmenite-type): Single crystal X-ray diffraction study American Mineralogist, 1982, 67, 788-793
1526025	CIF	O4 P0.087 Si0.913 Yb0.087 Zr0.913	I 41/a m d :2	6.6265; 6.6265; 5.979 90; 90; 90	262.541	Finch, R.J.; Hanchar, J.M.; Hoskin, P.W.O.; Burns, P.C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002561	CIF	O4 Si Zr	I 41/a m d :2	6.6265; 6.6265; 5.979 90; 90; 90	262.541	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Yb+P (40) American Mineralogist, 2001, 86, 681-689
9003749	CIF	Mg O3 Si	R -3 :H	4.729; 4.729; 13.559 90; 90; 120	262.601	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 0.0001 GPa American Mineralogist, 2005, 90, 1301-1307
1526021	CIF	Dy0.058 O4 P0.058 Si0.91 Zr0.942	I 41/a m d :2	6.626; 6.626; 5.986 90; 90; 90	262.809	Finch, R.J.; Hanchar, J.M.; Hoskin, P.W.O.; Burns, P.C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002559	CIF	O4 Si Zr	I 41/a m d :2	6.626; 6.626; 5.986 90; 90; 90	262.809	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Dy+P (33) American Mineralogist, 2001, 86, 681-689
9017105	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6473; 4.6473; 14.075 90; 90; 120	263.257	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p3 Note: P = 25.34 GPa American Mineralogist, 2015, 100, 2625-2629
1526027	CIF	O4 P0.13 Si0.85 Y0.13 Zr0.87	I 41/a m d :2	6.6329; 6.6329; 5.986 90; 90; 90	263.356	Finch, R.J.; Hanchar, J.M.; Hoskin, P.W.O.; Burns, P.C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002562	CIF	O4 Si Zr	I 41/a m d :2	6.6329; 6.6329; 5.986 90; 90; 90	263.356	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Y+P (43) American Mineralogist, 2001, 86, 681-689
1526023	CIF	Er0.062 O4 P0.062 Si0.962 Zr0.938	I 41/a m d :2	6.6355; 6.6355; 5.989 90; 90; 90	263.695	Finch, R.J.; Hanchar, J.M.; Hoskin, P.W.O.; Burns, P.C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution American Mineralogist, 2001, 86, 681-689
9002560	CIF	O4 Si Zr	I 41/a m d :2	6.6355; 6.6355; 5.989 90; 90; 90	263.695	Finch, R. J.; Hanchar, J. M.; Hoskin, P. W. O.; Burns, P. C. Rare-earth elements in synthetic zircon: Part 2. A single-crystal X-ray study of xenotime substitution Sample: Er+P (36) American Mineralogist, 2001, 86, 681-689
9001165	CIF	H3.16 Mn6 O15.16	P 1 2/m 1	9.764; 2.8416; 9.551 90; 94.06; 90	264.331	Post, J. E.; Bish, D. L. Rietveld refinement of the todorokite structure Sample: South Africa Ka American Mineralogist, 1988, 73, 861-869
9001167	CIF	Mn O2	P 1 2/m 1	9.789; 2.834; 9.551 90; 93.7; 90	264.412	Post, J. E.; Bish, D. L. Rietveld refinement of the todorokite structure Sample: Cuba American Mineralogist, 1988, 73, 861-869
9001166	CIF	H4.16 Mn6 O16.16	P 1 2/m 1	9.763; 2.8454; 9.559 90; 94.16; 90	264.846	Post, J. E.; Bish, D. L. Rietveld refinement of the todorokite structure Sample: South Africa Kb American Mineralogist, 1988, 73, 861-869
9003133	CIF	Cl K	F m -3 m	6.422; 6.422; 6.422 90; 90; 90	264.857	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515036, T = 500 C, P = 0.0 kbar, cell volume = 264.86 ang**3 American Mineralogist, 2004, 89, 204-210
9016737	CIF	Ca O4 S	P 62 2 2	6.9694; 6.9694; 6.3033 90; 90; 120	265.149	Lager, G. A.; Armbruster, T.; Rotella, F. J.; Jorgensen, J. D.; Hinks, D. G. A crystallographic study of the low-temperature dehydration products of gypsum CaSO4*2H2O: hemihydrate CaSO4*0.50H2O, and gamma-CaSO4 Note: gamma-CaSO4 American Mineralogist, 1984, 69, 910-918
9002154	CIF	Au0.133 Pb1.476 S2 Sb0.524 Te0.867	P 1 21/m 1	4.22; 4.176; 15.119 90; 95.42; 90	265.247	Effenberger, H.; Paar, W. H.; Topa, D.; Culetto, F. J.; Giester, G. Toward the crystal structure of nagyagite, [Pb(Pb,Sb)S2][(Au,Te)] American Mineralogist, 1999, 84, 669-676
9010484	CIF	As3 Co1.5 Fe1.5 S3	P n 21 m	14.158; 5.6462; 3.3196 90; 90; 90	265.365	Yang, H.; Downs, R. T. Crystal structure of glaucodot, (Co,Fe)AsS, and its relationships to marcasite and arsenopyrite American Mineralogist, 2008, 93, 1183-1186
1531987	CIF	Ca0.15 H8 K0.01 Mg0.45 Mn6 Na0.42 O16	P 1 2/m 1	9.769; 2.8512; 9.56 90; 94.47; 90	265.468	Post, J.E.; Heaney, P.J.; Hanson, J. Synchrotron X-ray diffraction study of the structure and dehydration behavior of todorokite American Mineralogist, 2003, 88, 142-150
9002866	CIF	H8.16 Mg0.47 Mn6 O16.9	P 1 2/m 1	9.769; 2.8512; 9.56 90; 94.47; 90	265.468	Post, J. E.; Heaney, P. J.; Hanson, J. C. Synchrotron X-ray diffraction study of the structure and dehydration behavior of todorokite American Mineralogist, 2003, 88, 142-150
9000225	CIF	Fe H3 O7 S	P 1 21/m 1	6.5; 7.37; 5.84 90; 108.38; 90	265.493	Fanfani, L.; Nunzi, A.; Zanazzi, P. F. The crystal structure of butlerite American Mineralogist, 1971, 56, 751-757
1538311	CIF	Al0.21 B Fe0.12 Mg1.33 O4 Ti0.34	P n a m	9.197; 9.358; 3.085 90; 90; 90	265.512	Moore, P.B.; Araki, T. Pinakiolite, Mg2 Mn(III) O2 B O3, warwickite, Mg (Mg.5 Ti.5) O (B O3), wightmanite, Mg5 (O) (O H)5 (B O3) * (H2 O)n: Crystal chemistry of complex 3 Angstroem wallpaper structures American Mineralogist, 1974, 59, 985-1004
9000407	CIF	B Mg1.58 O4 Ti0.42	P n a m	9.197; 9.358; 3.085 90; 90; 90	265.512	Moore, P. B.; Araki, T. Pinakiolite, Mg2MnO2[BO3]; warwickite, Mg(Mg0.5Ti0.5)O[BO3]; wightmanite, Mg5(O)(OH)5[BO3].nH2O: Crystal chemistry of complex 3 Angstrom wallpaper structures American Mineralogist, 1974, 59, 985-1004
9017104	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6554; 4.6554; 14.149 90; 90; 120	265.565	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p2 Note: P = 23.65 GPa American Mineralogist, 2015, 100, 2625-2629
9015653	CIF	Cr2 O3	R -3 c :H	4.8152; 4.8152; 13.242 90; 90; 120	265.897	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 24.1 GPa American Mineralogist, 2012, 97, 1764-1770
9001854	CIF	C Mg O3	R -3 c :H	4.5812; 4.5812; 14.6302 90; 90; 120	265.913	Ross, N. L. The equation of state and high-pressure behaviour of magnesite Sample: at P = 6.05 GPa American Mineralogist, 1997, 82, 682-688
9001357	CIF	Al0.02 B Cr0.17 Fe0.47 Mg1.18 O4 Ti0.16	P n m a	9.228; 3.084; 9.371 90; 90; 90	266.691	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S4 American Mineralogist, 1991, 76, 1380-1388
9001355	CIF	Al0.01 B Cr0.23 Fe0.5 Mg1.14 O4 Ti0.12	P n m a	9.226; 3.086; 9.369 90; 90; 90	266.749	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S2 American Mineralogist, 1991, 76, 1380-1388
9016618	CIF	C Na1.959 O3	C 1 2/m 1	8.825; 5.194; 5.953 90; 101.83; 90	267.072	Arakcheeva, A.; Bindi, L.; Pattison, P.; Meisser, N.; Chapuis, G.; Pekov, I. The incommensurately modulated structures of natural natrite at 120 and 293 K from synchrotron X-ray data T = 120 K American Mineralogist, 2010, 95, 574-581
9017103	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6581; 4.6581; 14.213 90; 90; 120	267.075	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p1 Note: P = 22.50 GPa American Mineralogist, 2015, 100, 2625-2629
9000372	CIF	Al Li O4 Si	P 64 2 2	5.251; 5.251; 11.189 90; 90; 120	267.181	Pillars, W. W.; Peacor, D. R. The crystal structure of beta eucryptite as a function of temperature T = 647 C American Mineralogist, 1973, 58, 681-690
9000371	CIF	Al Li O4 Si	P 64 2 2	5.251; 5.251; 11.192 90; 90; 120	267.253	Pillars, W. W.; Peacor, D. R. The crystal structure of beta eucryptite as a function of temperature T = 484 C American Mineralogist, 1973, 58, 681-690
9001356	CIF	Al0.04 B Cr0.18 Fe0.51 Mg1.15 O4 Ti0.12	P n m a	9.23; 3.0906; 9.378 90; 90; 90	267.519	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S3 American Mineralogist, 1991, 76, 1380-1388
9016563	CIF	Cr2 O3	R -3 c :H	4.8273; 4.8273; 13.264 90; 90; 120	267.679	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 20.4 GPa American Mineralogist, 2012, 97, 1764-1770
9017077	CIF	Cr2 Fe O4	C m c m	2.88445; 9.5207; 9.7532 90; 90; 90	267.842	Ishii, T.; Kojitani, H.; Tsukamoto, S.; Fujino, K.; Mori, D.; Inaguma, Y.; Tsujino, N.; Yoshino, T.; Yamazaki, D.; Higo, Y.; Funakoshi, K.; Akaogi, M. High-pressure phase transitions in FeCr2O4 and structure analysis of new post- spinel FeCr2O4 and Fe2Cr2O5 phases with meteoritical and petrological implications American Mineralogist, 2014, 99, 1788-1797
9001354	CIF	Al0.02 B Cr0.02 Fe0.85 Mg1.07 O4 Ti0.04	P n m a	9.246; 3.0927; 9.384 90; 90; 90	268.336	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S1 American Mineralogist, 1991, 76, 1380-1388
9001359	CIF	Al0.02 B Cr0.02 Fe0.61 Mg1.18 O4 Ti0.17	P n m a	9.242; 3.098; 9.383 90; 90; 90	268.651	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S6 American Mineralogist, 1991, 76, 1380-1388
1510961	CIF	B3.96 Cr0.16 Fe2.6 Mg4.64 O16 Si0.04 Ti0.6	P n m a	9.246; 3.0993; 9.378 90; 90; 90	268.737	Brigatti, M.F.; Capedri, S.; Bigi, S. Crystal chemistry of Fe- and Cr-rich warwickite American Mineralogist, 1991, 76, 1380-1388
9001358	CIF	B Cr0.04 Fe0.65 Mg1.16 O4 Ti0.15	P n m a	9.246; 3.0993; 9.378 90; 90; 90	268.737	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S5 American Mineralogist, 1991, 76, 1380-1388
9001853	CIF	C Mg O3	R -3 c :H	4.5937; 4.5937; 14.7157 90; 90; 120	268.928	Ross, N. L. The equation of state and high-pressure behaviour of magnesite Sample: at P = 4.77 GPa American Mineralogist, 1997, 82, 682-688
9001360	CIF	Al0.01 B Cr0.23 Fe0.54 Mg1.12 O4 Ti0.1	P n m a	9.255; 3.0941; 9.402 90; 90; 90	269.235	Bigi, S.; Brigatti, M. F.; Capedri, S. Crystal chemistry of Fe- and Cr-rich warwickite sample S7 American Mineralogist, 1991, 76, 1380-1388
9002373	CIF	Al2.001 Ca3 O14 Si2.498 Ti1.501	P 3 2 1	7.943; 7.943; 4.93 90; 90; 120	269.368	Scheuermann, P.; Kutoglu, A.; Schosnig, M.; Hoffer, E. Structure and stability of the high-pressure phase, Ca3TiSi2(Al,Ti,Si)3O14 American Mineralogist, 2000, 85, 784-791
9000102	CIF	C Ni O3	R -3 c :H	4.5975; 4.5975; 14.723 90; 90; 120	269.507	Graf, D. L. Crystallographic tables for the rhombohedral carbonates American Mineralogist, 1961, 46, 1283-1316
9017141	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6624; 4.6624; 14.33 90; 90; 120	269.771	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p23 Note: P = 20.24 GPa American Mineralogist, 2015, 100, 2625-2629
9017086	CIF	Al0.22 Cr0.3 Fe2.15 Mg0.26 O4 Si0.08	A m a m	9.8; 9.6; 2.87 90; 90; 90	270.01	Koch-Muller M; Mugnaioli, E.; Rhede, D.; Speziale, S.; Kolb, U.; Wirth, R. Synthesis of a quenchable high-pressure form of magnetite (h-Fe3O4) with composition Fe1(Fe2+0.75Mg0.26)Fe2(Fe3+0.70Cr0.15Al0.11Si0.04)2O4 Note: Sample Crystal 1 American Mineralogist, 2014, 99, 2405-2415
9017087	CIF	Al0.22 Cr0.3 Fe2.15 Mg0.26 O4 Si0.08	A m a m	9.8; 9.6; 2.87 90; 90; 90	270.01	Koch-Muller M; Mugnaioli, E.; Rhede, D.; Speziale, S.; Kolb, U.; Wirth, R. Synthesis of a quenchable high-pressure form of magnetite (h-Fe3O4) with composition Fe1(Fe2+0.75Mg0.26)Fe2(Fe3+0.70Cr0.15Al0.11Si0.04)2O4 Note: Sample Crystal 2 American Mineralogist, 2014, 99, 2405-2415
9003137	CIF	Cl K	F m -3 m	6.4644; 6.4644; 6.4644 90; 90; 90	270.137	Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S. Halite-sylvite thermoelasticity Sample: msl515037, T = 600 C, P = 0.0 kbar, cell volume = 270.14 ang**3 American Mineralogist, 2004, 89, 204-210
9017140	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6641; 4.6641; 14.341 90; 90; 120	270.175	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p22 Note: P = 19.78 GPa American Mineralogist, 2015, 100, 2625-2629
9001852	CIF	C Mg O3	R -3 c :H	4.5988; 4.5988; 14.7525 90; 90; 120	270.2	Ross, N. L. The equation of state and high-pressure behaviour of magnesite Sample: at P = 4.16 GPa American Mineralogist, 1997, 82, 682-688
9016604	CIF	C Ca0.001 O3 Pb	P m c n	5.182; 8.4953; 6.1436 90; 90; 90	270.458	Ye, Y.; Smyth, J. R.; Boni, P. Crystal structure and thermal expansion of aragonite-group carbonates by single-crystal X-ray diffraction Note: T = 300 K American Mineralogist, 2012, 97, 707-712
9017139	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6686; 4.6686; 14.401 90; 90; 120	271.83	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p21 Note: P = 18.69 GPa American Mineralogist, 2015, 100, 2625-2629
9000260	CIF	Fe0.65 Mn0.35 O4 P	P m n b	5.83; 9.79; 4.769 90; 90; 90	272.194	Eventoff, W.; Martin, R.; Peacor, D. R. The crystal structure of heterosite American Mineralogist, 1972, 57, 45-51
9001851	CIF	C Mg O3	R -3 c :H	4.6068; 4.6068; 14.817 90; 90; 120	272.326	Ross, N. L. The equation of state and high-pressure behaviour of magnesite Sample: at P = 3.09 GPa American Mineralogist, 1997, 82, 682-688
9017138	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6679; 4.6679; 14.4441 90; 90; 120	272.561	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p20 Note: P = 17.66 GPa American Mineralogist, 2015, 100, 2625-2629
9001661	CIF	Lu O4 P	I 41/a m d :2	6.7828; 6.7828; 5.9467 90; 90; 90	273.586	Ni, Y.; Hughes, J. M.; Mariano, A. N. Crystal chemistry of the monazite and xenotime structures Lu(PO4) American Mineralogist, 1995, 80, 21-26
9014432	CIF	Cr2 O3	R -3 c :H	4.8645; 4.8645; 13.355 90; 90; 120	273.685	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 14.0 GPa American Mineralogist, 2012, 97, 1764-1770
9013637	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.57; 7.57; 4.781 90; 90; 90	273.975	Merlini, M.; Gemmi, M.; Hanfland, M.; Crichton, W. High-pressure behavior of akermanite and gehlenite and phase stability of the normal structures in melelites Note: P = 15 GPa American Mineralogist, 2009, 94, 704-709
9016131	CIF	C Na1.959 O3	C 1 2/m 1	8.851; 5.24; 6.021 90; 101.08; 90	274.044	Arakcheeva, A.; Bindi, L.; Pattison, P.; Meisser, N.; Chapuis, G.; Pekov, I. The incommensurately modulated structures of natural natrite at 120 and 293 K from synchrotron X-ray data T = 293 K American Mineralogist, 2010, 95, 574-581
9000271	CIF	Mg2 O4 Si	P 1 2/m 1	10.11; 5.77; 4.7 90; 90; 90	274.173	Baur, W. H. Computer-simulated crystal structures of observed and hypothetical Mg2SiO4 polymorphs of low and high density Model I American Mineralogist, 1972, 57, 709-731
9001850	CIF	C Mg O3	R -3 c :H	4.6149; 4.6149; 14.867 90; 90; 120	274.207	Ross, N. L. The equation of state and high-pressure behaviour of magnesite Sample: at P = 2.26 GPa American Mineralogist, 1997, 82, 682-688
9013507	CIF	Lu O4 P	I 41/a m d :2	6.7895; 6.7895; 5.956 90; 90; 90	274.556	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9013508	CIF	Lu O4 P	I 41/a m d :2	6.7914; 6.7914; 5.9585 90; 90; 90	274.825	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9017137	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6775; 4.6775; 14.528 90; 90; 120	275.273	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p19 Note: P = 16.42 GPa American Mineralogist, 2015, 100, 2625-2629
9013509	CIF	Lu O4 P	I 41/a m d :2	6.7951; 6.7951; 5.9618 90; 90; 90	275.276	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9000092	CIF	O8 V3	C 1 2/m 1	19.64; 2.99; 4.83 90; 103.92; 90	275.305	Evans, H. T.; Mrose, M. E. A crystal chemical study of the vanadium oxide minerals, haggite and doloresite American Mineralogist, 1960, 45, 1144-1166
9015371	CIF	C Na1.947 O3	C 1 2/m 1	8.8818; 5.235; 6.0455 90; 101.464; 90	275.485	Arakcheeva, A.; Bindi, L.; Pattison, P.; Meisser, N.; Chapuis, G.; Pekov, I. The incommensurately modulated structures of natural natrite at 120 and 293 K from synchrotron X-ray data T = 293 K American Mineralogist, 2010, 95, 574-581
9013510	CIF	Lu O4 P	I 41/a m d :2	6.7989; 6.7989; 5.9664 90; 90; 90	275.797	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9000487	CIF	B H2 Na O7 Si2	P 1 21 1	7.9814; 7.0657; 4.9054 90; 93.95; 90	275.979	Ghose, S.; Wan, C. Structural chemistry of borosilicates, part II: Searlesite, NaBSi2O5(OH): Absolute configuration, hydrogen locations, and refinement of the structure Note: unable to reproduce any of the reported bond lengths American Mineralogist, 1976, 61, 123-129
9001660	CIF	O4 P Yb	I 41/a m d :2	6.8093; 6.8093; 5.9639 90; 90; 90	276.526	Ni, Y.; Hughes, J. M.; Mariano, A. N. Crystal chemistry of the monazite and xenotime structures Yb(PO4) American Mineralogist, 1995, 80, 21-26
9003757	CIF	Ge Mg O3	R -3 :H	4.871; 4.871; 13.458 90; 90; 120	276.533	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 9.3 GPa American Mineralogist, 2005, 90, 1301-1307
9013511	CIF	Lu O4 P	I 41/a m d :2	6.805; 6.805; 5.9725 90; 90; 90	276.575	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study, Locality: synthetic Note: T = 400 C Note: zircon structure American Mineralogist, 2009, 94, 98-104
9013512	CIF	Lu O4 P	I 41/a m d :2	6.809; 6.809; 5.9768 90; 90; 90	277.099	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9017136	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6826; 4.6826; 14.613 90; 90; 120	277.488	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p18 Note: P = 14.82 GPa American Mineralogist, 2015, 100, 2625-2629
9010250	CIF	C D K O3	P 1 21/a 1	14.33; 5.4868; 3.6024 90; 101.457; 90	277.598	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Note: Kalicinite-type structure Sample: P = 2.84 GPa American Mineralogist, 2007, 92, 1018-1025
9013513	CIF	Lu O4 P	I 41/a m d :2	6.8132; 6.8132; 5.9814 90; 90; 90	277.655	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9000891	CIF	Al0.15 Fe1.1 H O8 Ti0.3 V3.45	P 63 m c	5.89; 5.89; 9.255 90; 90; 120	278.059	Gatehouse, B. M.; Grey, I. E.; Nickel, E. H. The crystal chemistry of nolanite, (V,Fe,Ti,Al)10O14(OH)2, from Kalgoorlie, Western Australia sample: crystal # 1 American Mineralogist, 1983, 68, 833-839
9000892	CIF	Al0.1 Fe1.75 H O8 Ti0.55 V2.6	P 63 m c	5.89; 5.89; 9.255 90; 90; 120	278.059	Gatehouse, B. M.; Grey, I. E.; Nickel, E. H. The crystal chemistry of nolanite, (V,Fe,Ti,Al)10O14(OH)2, from Kalgoorlie, Western Australia sample: crystal # 2 American Mineralogist, 1983, 68, 833-839
9013514	CIF	Lu O4 P	I 41/a m d :2	6.8171; 6.8171; 5.9859 90; 90; 90	278.182	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9003756	CIF	Ge Mg O3	R -3 :H	4.88; 4.88; 13.502 90; 90; 120	278.464	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 8.1 GPa American Mineralogist, 2005, 90, 1301-1307
9013515	CIF	Lu O4 P	I 41/a m d :2	6.8214; 6.8214; 5.9893 90; 90; 90	278.691	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9014810	CIF	Cr2 O3	R -3 c :H	4.8949; 4.8949; 13.432 90; 90; 120	278.714	Kantor, A.; Kantor, I.; Merlini, M.; Glazyrin, K.; Prescher, C.; Hanfland, M.; Dubrovinsky, L. High-pressure structural studies of eskolaite by means of single-crystal X-ray diffraction Note: P = 8.1 GPa American Mineralogist, 2012, 97, 1764-1770
9001659	CIF	O4 P Tm	I 41/a m d :2	6.8294; 6.8294; 5.9798 90; 90; 90	278.902	Ni, Y.; Hughes, J. M.; Mariano, A. N. Crystal chemistry of the monazite and xenotime structures Tm(PO4) American Mineralogist, 1995, 80, 21-26
9001653	CIF	Gd O4 P	P 1 21/n 1	6.6435; 6.8414; 6.3281 90; 103.976; 90	279.103	Ni, Y.; Hughes, J. M.; Mariano, A. N. Crystal chemistry of the monazite and xenotime structures Gd(PO4) American Mineralogist, 1995, 80, 21-26
9000096	CIF	C Mg O3	R -3 c :H	4.633; 4.633; 15.016 90; 90; 120	279.132	Graf, D. L. Crystallographic tables for the rhombohedral carbonates American Mineralogist, 1961, 46, 1283-1316
9013516	CIF	Lu O4 P	I 41/a m d :2	6.8249; 6.8249; 5.9932 90; 90; 90	279.159	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9010226	CIF	C Mg O3	R -3 c :H	4.6334; 4.6334; 15.0178 90; 90; 120	279.214	Bromiley, F. A.; Boffa Ballaran, T.; Langenhorst, F.; Seifert, F. Order and miscibility in the otavite - magnesite solid solution Sample: X_Mg = 1, synthesized at 800 C, 1 GPa, 1 h American Mineralogist, 2007, 92, 829-836
9003087	CIF	C D K O3	P 1 21/a 1	14.379; 5.494; 3.609 90; 101.64; 90	279.241	Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B. Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 2.5 GPa American Mineralogist, 2003, 88, 1446-1451
9016123	CIF	As2 H10 Mn3 O14	P 1	5.5828; 9.766; 5.5455 94.467; 111.348; 93.85	279.26	Callegari, A. M.; Boiocchi, M.; Ciriotti, M. E.; Balestra, C. Coralloite, Mn2+Mn3+2(AsO4)2(OH)2*4H2O, a new mixed valence Mn hydrate arsenate: crystal structure and relationships with bermanite and whitmoreite mineral groups American Mineralogist, 2012, 97, 727-734
9001849	CIF	C Mg O3	R -3 c :H	4.6339; 4.6339; 15.0177 90; 90; 120	279.272	Ross, N. L. The equation of state and high-pressure behaviour of magnesite Sample: at P = 0 American Mineralogist, 1997, 82, 682-688
9010210	CIF	C Mg O3	R -3 c :H	4.6338; 4.6338; 15.0192 90; 90; 120	279.288	Bromiley, F. A.; Boffa Ballaran, T.; Langenhorst, F.; Seifert, F. Order and miscibility in the otavite - magnesite solid solution Sample: X_Mg = 1, synthesized at 600 C, 1 GPa, 3 h American Mineralogist, 2007, 92, 829-836
9000971	CIF	C Mg O3	R -3 c :H	4.635; 4.635; 15.019 90; 90; 120	279.429	Markgraf, S. A.; Reeder, R. J. High-temperature structure refinements of calcite and magnesite Sample: T = 24 C American Mineralogist, 1985, 70, 590-600
9010293	CIF	Fe2 Mg O4	P 41 2 2	5.8309; 5.8309; 8.2218 90; 90; 90	279.536	Palin, E. J.; Harrison, R. J. A Monte Carlo investigation of the thermodynamics of cation ordering in 2-3 spinels Note: theoretical atom sites using GULP American Mineralogist, 2007, 92, 1334-1345
9001236	CIF	Mn2 O4 Pb0.35	I 1 2/m 1	9.913; 2.8652; 9.843 90; 90.2; 90	279.566	Post, J. E.; Bish, D. L. Rietveld refinement of the coronadite structure sample from Broken Hill American Mineralogist, 1989, 74, 913-917
9000380	CIF	C Mg O3	R -3 c :H	4.637; 4.637; 15.023 90; 90; 120	279.744	Oh, K. D.; Morikawa, H.; Iwai, S. I.; Aoki, H. The crystal structure of magnesite American Mineralogist, 1973, 58, 1029-1033
9000541	CIF	Mg2 O4 Si	P b n m	4.712; 9.97; 5.955 90; 90; 90	279.758	Hazen, R. M. Effects of temperature and pressure on the crystal structure of forsterite T = 23 C P = 50 kb olivine American Mineralogist, 1976, 61, 1280-1293
9013517	CIF	Lu O4 P	I 41/a m d :2	6.8295; 6.8295; 5.9981 90; 90; 90	279.764	Patwe, S. J.; Achary, S. N.; Tyagi, A. K. Lattice thermal expansion of zircon-type LuPO4 and LuVO4: A comparative study American Mineralogist, 2009, 94, 98-104
9001235	CIF	Mn2 O4 Pb0.268	I 1 2/m 1	9.938; 2.8678; 9.834 90; 90.39; 90	280.264	Post, J. E.; Bish, D. L. Rietveld refinement of the coronadite structure sample from Morocco American Mineralogist, 1989, 74, 913-917
9010249	CIF	C D K O3	P 1 21/a 1	14.419; 5.5011; 3.6093 90; 101.731; 90	280.311	Allan, D. R.; Marshall, W. G.; Pulham, C. R. The high-pressure crystal structure of potassium hydrogen carbonate (KHCO3) Note: Kalicinite-type structure Sample: P = 2.50 GPa American Mineralogist, 2007, 92, 1018-1025
9010193	CIF	Ba O3 Si	P 63/m m c	5.1125; 5.1125; 12.3871 90; 90; 120	280.393	Yusa, H.; Sata, N.; Ohishi, Y. Rhombohedral (9R) and hexagonal (6H) perovskites in barium silicates under high pressure Sample: P = 48.5 GPa American Mineralogist, 2007, 92, 648-654
9016634	CIF	Al0.5 Nb0.5 O2	C 1 2/m 1	12.1545; 3.735; 6.4884 90; 107.62; 90	280.735	Ardit, M.; Dondi, M.; Cruciani, G. Structural stability, cation ordering, and local relaxation along the AlNbO4-Al0.5Cr0.5NbO4 join Note: Sample label: N00 American Mineralogist, 2012, 97, 910-917
9000972	CIF	C Mg O3	R -3 c :H	4.639; 4.639; 15.065 90; 90; 120	280.769	Markgraf, S. A.; Reeder, R. J. High-temperature structure refinements of calcite and magnesite Sample: T = 200 C American Mineralogist, 1985, 70, 590-600
9000101	CIF	C Co O3	R -3 c :H	4.6581; 4.6581; 14.958 90; 90; 120	281.075	Graf, D. L. Crystallographic tables for the rhombohedral carbonates American Mineralogist, 1961, 46, 1283-1316
9017135	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6929; 4.6929; 14.7382 90; 90; 120	281.098	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p17 Note: P = 12.73 GPa American Mineralogist, 2015, 100, 2625-2629
9000272	CIF	Mg2 O4 Si	C 1 2/m 1	10.05; 5.75; 4.87 90; 90; 90	281.425	Baur, W. H. Computer-simulated crystal structures of observed and hypothetical Mg2SiO4 polymorphs of low and high density Model II American Mineralogist, 1972, 57, 709-731
9001658	CIF	Er O4 P	I 41/a m d :2	6.8508; 6.8508; 5.9968 90; 90; 90	281.451	Ni, Y.; Hughes, J. M.; Mariano, A. N. Crystal chemistry of the monazite and xenotime structures Er(PO4) American Mineralogist, 1995, 80, 21-26
9001652	CIF	Eu O4 P	P 1 21/n 1	6.6613; 6.8618; 6.3491 90; 103.96; 90	281.636	Ni, Y.; Hughes, J. M.; Mariano, A. N. Crystal chemistry of the monazite and xenotime structures Eu(PO4) American Mineralogist, 1995, 80, 21-26
9000099	CIF	C O3 Zn	R -3 c :H	4.6528; 4.6528; 15.025 90; 90; 120	281.692	Graf, D. L. Crystallographic tables for the rhombohedral carbonates American Mineralogist, 1961, 46, 1283-1316
9000973	CIF	C Mg O3	R -3 c :H	4.642; 4.642; 15.096 90; 90; 120	281.71	Markgraf, S. A.; Reeder, R. J. High-temperature structure refinements of calcite and magnesite Sample: T = 300 C American Mineralogist, 1985, 70, 590-600
9000540	CIF	Mg2 O4 Si	P b n m	4.734; 10.02; 5.94 90; 90; 90	281.762	Hazen, R. M. Effects of temperature and pressure on the crystal structure of forsterite T = 23 C P = 40 kb olivine American Mineralogist, 1976, 61, 1280-1293
9016072	CIF	Al0.94 Cr0.06 Nb O4	C 1 2/m 1	12.162; 3.7454; 6.491 90; 107.64; 90	281.772	Ardit, M.; Dondi, M.; Cruciani, G. Structural stability, cation ordering, and local relaxation along the AlNbO4-Al0.5Cr0.5NbO4 join Note: Sample label: N06 American Mineralogist, 2012, 97, 910-917
9003086	CIF	C D K O3	P 1 21/a 1	14.481; 5.51; 3.616 90; 101.94; 90	282.28	Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B. Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 2.3 GPa American Mineralogist, 2003, 88, 1446-1451
9017134	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6955; 4.6955; 14.7918 90; 90; 120	282.433	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p16 Note: P = 11.90 GPa American Mineralogist, 2015, 100, 2625-2629
9000630	CIF	Ni2 O4 Si	P b n m	4.726; 10.118; 5.913 90; 90; 90	282.746	Lager, G. A.; Meagher, E. P. High-temperature structural study of six olivines T = 25 deg C, synthetic Ni2SiO4 American Mineralogist, 1978, 63, 365-377
9014324	CIF	Al0.875 Cr0.125 Nb O4	C 1 2/m 1	12.1724; 3.755; 6.4957 90; 107.67; 90	282.894	Ardit, M.; Dondi, M.; Cruciani, G. Structural stability, cation ordering, and local relaxation along the AlNbO4-Al0.5Cr0.5NbO4 join Note: Sample label: N12 American Mineralogist, 2012, 97, 910-917
9000974	CIF	C Mg O3	R -3 c :H	4.646; 4.646; 15.139 90; 90; 120	283	Markgraf, S. A.; Reeder, R. J. High-temperature structure refinements of calcite and magnesite Sample: T = 400 C American Mineralogist, 1985, 70, 590-600