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COD ID	Links	Formula	Space group	Cell parameters	Cell volume	Bibliography
9006276	CIF	Cr2 O4 Si	F d d d :2	5.702; 11.169; 9.593 90; 90; 90	610.936	Dollase, W. A.; Seifert, F.; O'Neill H St C Structure of Cr2SiO4 and possible metal-metal interactions in crystal and melt Sample: P3A, quenched from 37 kbar and 1600 deg C Physics and Chemistry of Minerals, 1994, 21, 104-109
9006277	CIF	Al1.7 Fe3.3 O12 Si3	I a -3 d	11.5546; 11.5546; 11.5546 90; 90; 90	1542.64	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: alm85 Physics and Chemistry of Minerals, 1994, 21, 117-132
9006278	CIF	Al0.2 Fe4.8 O12 Si3	I a -3 d	11.7076; 11.7076; 11.7076 90; 90; 90	1604.74	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: alm10 Physics and Chemistry of Minerals, 1994, 21, 117-132
9006279	CIF	Ca0.33 Fe4.67 O12 Si3	I a -3 d	11.7663; 11.7663; 11.7663 90; 90; 90	1628.99	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: and11 Physics and Chemistry of Minerals, 1994, 21, 117-132
9006280	CIF	Ca0.63 Fe4.37 O12 Si3	I a -3 d	11.8002; 11.8002; 11.8002 90; 90; 90	1643.12	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: and21 Physics and Chemistry of Minerals, 1994, 21, 117-132
9006281	CIF	Ca1.92 Fe3.08 O12 Si3	I a -3 d	11.8568; 11.8568; 11.8568 90; 90; 90	1666.87	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: and36, Physics and Chemistry of Minerals, 1994, 21, 117-132
9006282	CIF	Ca1.56 Fe3.44 O12 Si3	I a -3 d	11.915; 11.915; 11.915 90; 90; 90	1691.54	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: and52 Physics and Chemistry of Minerals, 1994, 21, 117-132
9006283	CIF	Ca1.08 Fe3.92 O12 Si3	I a -3 d	11.9503; 11.9503; 11.9503 90; 90; 90	1706.62	Woodland, A. B.; Ross, C. R. A crystallographic and Mossbauer spectroscopy study of Fe3Al2Si3O12-Fe3Fe2Si3O12, (Almandine-"Skiagite") and Ca3Fe2Si3O12-Fe3Fe2Si3O12 (Andradite-"Skiagite") garnet solid solutions Sample: and64 Physics and Chemistry of Minerals, 1994, 21, 117-132
9006284	CIF	O2 Si	I -4	8.6557; 8.6557; 4.7702 90; 90; 90	357.389	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 1 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006285	CIF	O2 Si	I -4 2 d	4.7481; 4.7481; 7.488 90; 90; 90	168.813	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 2 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006286	CIF	O2 Si	P n a 21	5.0482; 6.6568; 4.9371 90; 90; 90	165.911	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 3 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006287	CIF	O2 Si	P 41 21 2	4.9329; 4.9329; 6.4645 90; 90; 90	157.304	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 4 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006288	CIF	O2 Si	P 43 21 2	4.9329; 4.9329; 6.4645 90; 90; 90	157.304	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 5 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006289	CIF	O2 Si	I m a 2	10.217; 7.9579; 4.9565 90; 90; 90	402.993	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 6 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006290	CIF	O2 Si	C 2 2 21	7.4953; 8.6203; 4.7305 90; 90; 90	305.646	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 7 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006291	CIF	O2 Si	C 1 2/c 1	8.8664; 4.7482; 8.7918 90; 115.413; 90	334.315	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 8 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006292	CIF	O2 Si	C 1 2/c 1	11.1032; 7.8989; 4.9771 90; 112.265; 90	403.96	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 9 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006293	CIF	O2 Si	P 1	4.8452; 6.9852; 7.0237 113.811; 77.951; 76.701	199.134	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 10 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006294	CIF	O2 Si	C 1 2 1	6.9979; 8.2122; 6.5106 90; 114.93; 90	339.289	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 11 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006295	CIF	O2 Si	C 1 2 1	6.8513; 7.3761; 6.7085 90; 101.918; 90	331.712	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 12 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006296	CIF	O2 Si	C 1 2 1	6.6211; 7.9963; 5.4115 90; 100.228; 90	281.955	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 13 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006297	CIF	O2 Si	P 1	5.8657; 5.1519; 5.3377 92.6936; 90.7338; 90.0688	161.111	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 14 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006298	CIF	O2 Si	P 1	5.098; 5.2954; 6.9599 110.92; 107.558; 83.9309	167.327	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 15 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006299	CIF	O2 Si	C 1 c 1	6.6395; 8.0488; 5.4184 90; 99.9967; 90	285.163	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 16 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006300	CIF	O2 Si	P 1	5.5569; 5.2463; 5.9716 88.5667; 114.226; 94.0951	158.353	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 17 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006301	CIF	O2 Si	I 21 21 21	4.1154; 4.4201; 15.5724 90; 90; 90	283.269	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 18 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006302	CIF	O2 Si	P 1 m 1	4.7082; 5.5282; 5.0064 90; 107.835; 90	124.044	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 19 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006303	CIF	O2 Si	P 1	5.4515; 5.3227; 5.8091 77.9812; 82.2353; 54.5766	134.326	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 20 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006304	CIF	O2 Si	P 1	4.7209; 4.5622; 6.0394 90.9053; 93.3589; 105.959	124.778	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 21 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006305	CIF	O2 Si	P 1 c 1	4.2166; 4.0206; 7.6423 90; 119.667; 90	112.579	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 22 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006306	CIF	O2 Si	P 1 2 1	4.1605; 4.1294; 7.4211 90; 101.375; 90	124.993	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 23 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006307	CIF	O2 Si	P 1	4.6409; 5.2953; 6.7956 111.506; 93.9553; 90.7337	154.874	Boisen, M. B.; Gibbs, G. V.; Bukowinski, M. S. T. Framework silica structures generated using simulated annealing with a potential energy function based on an H6Si2O7 molecule Sample: 24 Physics and Chemistry of Minerals, 1994, 21, 269-284
9006308	CIF	Al2 Fe0.2 O4 Zn0.8	F d -3 m :2	8.1007; 8.1007; 8.1007 90; 90; 90	531.579	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 0.2, annealed at 725 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006309	CIF	Al2 Fe0.4 O4 Zn0.6	F d -3 m :2	8.114; 8.114; 8.114 90; 90; 90	534.201	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 0.4, annealed at 725 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006310	CIF	Al2 Fe0.6 O4 Zn0.4	F d -3 m :2	8.1288; 8.1288; 8.1288 90; 90; 90	537.13	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 0.6, annealed at 725 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006311	CIF	Al2 Fe O4	F d -3 m :2	8.1547; 8.1547; 8.1547 90; 90; 90	542.28	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 1.0, annealed at 725 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006312	CIF	Al2 Fe0.2 O4 Zn0.8	F d -3 m :2	8.1008; 8.1008; 8.1008 90; 90; 90	531.598	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 0.2, annealed at 1075 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006313	CIF	Al2 Fe0.4 O4 Zn0.6	F d -3 m :2	8.1141; 8.1141; 8.1141 90; 90; 90	534.221	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 0.4, annealed at 1075 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006314	CIF	Al2 Fe0.6 O4 Zn0.4	F d -3 m :2	8.1282; 8.1282; 8.1282 90; 90; 90	537.011	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 0.6, annealed at 1075 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006315	CIF	Al2 Fe O4	F d -3 m :2	8.1546; 8.1546; 8.1546 90; 90; 90	542.261	Waerenborgh, J. C.; Figueiredo, M. O.; Cabral, J. M. P.; Pereira, L. C. J. Powder XRD structure refinements and 57Fe Mossbauer effect study of synthetic Zn1-xFexAl2O4 (o<x<=1) spinels annealed at different temperatures Sample: 1.0, annealed at 1075 degrees C for 48 hours, then quenched Physics and Chemistry of Minerals, 1994, 21, 460-468
9006316	CIF	Fe2 O3	F d -3 m :2	8.33; 8.33; 8.33 90; 90; 90	578.01	Pecharroman, C.; Gonzalez-Carreno T; Iglesias, J. E. The infrared dielectric properties of maghemite, gamma-Fe2O3, from reflectance measurement on pressed powders Sample: a) idealized Physics and Chemistry of Minerals, 1995, 22, 21-29
9006317	CIF	Fe2 O3	P 41 3 2	8.33; 8.33; 8.33 90; 90; 90	578.01	Pecharroman, C.; Gonzalez-Carreno T; Iglesias, J. E. The infrared dielectric properties of maghemite, gamma-Fe2O3, from reflectance measurement on pressed powders Sample: b) idealized Physics and Chemistry of Minerals, 1995, 22, 21-29
9006318	CIF	Fe3 O4	P 43 21 2	8.33; 8.33; 24.99 90; 90; 90	1734.03	Pecharroman, C.; Gonzalez-Carreno T; Iglesias, J. E. The infrared dielectric properties of maghemite, gamma-Fe2O3, from reflectance measurement on pressed powders Sample: c) idealized, either one of Fe-oct 1-6, or both Fe-oct 6-7 have zero occupancy Physics and Chemistry of Minerals, 1995, 22, 21-29
9006319	CIF	Al1.99 Ca0.24 Cr0.01 Fe1.59 Mg1.119 Mn0.039 O12 Si3 Ti0.01	I a -3 d	11.533; 11.533; 11.533 90; 90; 90	1534.01	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Note: sample MP14 Physics and Chemistry of Minerals, 1995, 22, 159-169
9006320	CIF	Al2 Ca0.51 Fe1.431 Mg1.02 Mn0.039 O12 Si3	I a -3 d	11.565; 11.565; 11.565 90; 90; 90	1546.81	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Note: sample MP18 Physics and Chemistry of Minerals, 1995, 22, 159-169
9006321	CIF	Al1.99 Ca0.51 Fe1.56 Mg0.921 Mn0.039 O12 Si3 Ti0.01	I a -3 d	11.571; 11.571; 11.571 90; 90; 90	1549.22	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Note: sample MP12 Physics and Chemistry of Minerals, 1995, 22, 159-169
9006322	CIF	Al1.99 Ca1.389 Fe0.469 Mg1.14 Mn0.009 O12 Si3	I a -3 d	11.663; 11.663; 11.663 90; 90; 90	1586.47	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Sample: SBB Physics and Chemistry of Minerals, 1995, 22, 159-169
9006323	CIF	Al1.87 Ca2.139 Fe0.849 Mg0.09 Mn0.039 O12 Si3 Ti0.01	I a -3 d	11.787; 11.787; 11.787 90; 90; 90	1637.61	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Note: sample VOL Physics and Chemistry of Minerals, 1995, 22, 159-169
9006324	CIF	Al Ca2.889 Fe0.949 Mn0.039 O12 Si3 Ti0.12	I a -3 d	11.967; 11.967; 11.967 90; 90; 90	1713.78	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Note: sample BRIC Physics and Chemistry of Minerals, 1995, 22, 159-169
9006325	CIF	Al1.81 Ca2.901 Fe0.22 Mg0.06 Mn0.009 O12 Si3 Ti0.01	I a -3 d	11.871; 11.871; 11.871 90; 90; 90	1672.87	Quartieri, S.; Chaboy, J.; Merli, M.; Oberti, R.; Ungaretti, L. Local structural environment of calcium in garnets: A combined structure-refinement and XANES investigation Note: sample GRO Physics and Chemistry of Minerals, 1995, 22, 159-169
9006326	CIF	Al2.8 Ba0.01 Fe0.08 H2 K0.9 Mg0.04 Na0.07 O12 Si3.04 Ti0.04	C 1 2/c 1	5.194; 9.013; 20.064 90; 95.8; 90	934.458	Comodi, P.; Zanazzi, P. F. High-pressure structural study of muscovite Sample: K-Ms, P = 0.05 GPa Physics and Chemistry of Minerals, 1995, 22, 170-177
9006327	CIF	Al2.8 Ba0.01 Fe0.08 H2 K0.9 Mg0.04 Na0.07 O12 Si3.04 Ti0.04	C 1 2/c 1	5.151; 8.931; 19.399 90; 95.8; 90	887.855	Comodi, P.; Zanazzi, P. F. High-pressure structural study of muscovite Sample: K-Ms, P = 2.80 GPa Physics and Chemistry of Minerals, 1995, 22, 170-177
9006328	CIF	Al2.8 Fe0.1 H2 K0.6 Mg0.04 Na0.37 O12 Si3.04 Ti0.02	C 1 2/c 1	5.165; 8.964; 19.798 90; 95.4; 90	912.561	Comodi, P.; Zanazzi, P. F. High-pressure structural study of muscovite Sample: Na-Ms, P = 0.0001 GPa, in air Physics and Chemistry of Minerals, 1995, 22, 170-177
9006329	CIF	Al2.8 Fe0.1 H2 K0.6 Mg0.04 Na0.37 O12 Si3.04 Ti0.02	C 1 2/c 1	5.13; 8.886; 19.241 90; 95.5; 90	873.066	Comodi, P.; Zanazzi, P. F. High-pressure structural study of muscovite Sample: Na-Ms, P = 2.7 GPa Physics and Chemistry of Minerals, 1995, 22, 170-177
9006330	CIF	H2 Mg O2	P -3 m 1	3.14979; 3.14979; 4.7702 90; 90; 120	40.986	Catti, M.; Ferraris, G.; Hull, S.; Pavese, A. Static compression and H disorder in brucite, Mg(OH)2, to 11 GPa: a powder neutron diffraction study Sample: at P = 0.0001 GPa Physics and Chemistry of Minerals, 1995, 22, 200-206
9006331	CIF	H2 Mg O2	P -3 m 1	3.0698; 3.0698; 4.429 90; 90; 120	36.146	Catti, M.; Ferraris, G.; Hull, S.; Pavese, A. Static compression and H disorder in brucite, Mg(OH)2, to 11 GPa: a powder neutron diffraction study Sample: at P = 7.8 GPa Physics and Chemistry of Minerals, 1995, 22, 200-206
9006332	CIF	H2 Mg O2	P -3 m 1	3.0467; 3.0467; 4.3554 90; 90; 120	35.012	Catti, M.; Ferraris, G.; Hull, S.; Pavese, A. Static compression and H disorder in brucite, Mg(OH)2, to 11 GPa: a powder neutron diffraction study Sample: at P = 10.9 GPa Physics and Chemistry of Minerals, 1995, 22, 200-206
9006333	CIF	H2 Mg O2	P -3 m 1	3.0464; 3.0464; 4.3553 90; 90; 120	35.004	Catti, M.; Ferraris, G.; Hull, S.; Pavese, A. Static compression and H disorder in brucite, Mg(OH)2, to 11 GPa: a powder neutron diffraction study Sample: at P = 10.9 GPa, split H site Physics and Chemistry of Minerals, 1995, 22, 200-206
9006334	CIF	Ca Fe3 O12 Ti4	I m -3	7.46718; 7.46718; 7.46718 90; 90; 90	416.361	Leinenweber, K.; Linton, J.; Navrotsky, A.; Fei, Y.; Parise, J. B. High-pressure perovskites on the join CaTiO3-FeTiO3 Physics and Chemistry of Minerals, 1995, 22, 251-258
9006335	CIF	Fe O3 Ti	R 3 c :H	5.12334; 5.12334; 13.7602 90; 90; 120	312.796	Leinenweber, K.; Linton, J.; Navrotsky, A.; Fei, Y.; Parise, J. B. High-pressure perovskites on the join CaTiO3-FeTiO3 Physics and Chemistry of Minerals, 1995, 22, 251-258
9006336	CIF	Mg0.78 O3 Si1.06	P 63 c m	5.073; 5.073; 14.013 90; 90; 120	312.314	Kudoh, Y.; Nagase, T.; Sasaki, S.; Tanaka, M.; Kanzaki, M. Phase F, a new hydrous magnesium silicate synthesized at 1000 C and 17 GPa: Crystal structure and estimated bulk modulus Note: The authors withdrew this structure, it is not Phase-F See PCM 24 (1997) 610 Physics and Chemistry of Minerals, 1995, 22, 295-299
9006337	CIF	Mg O3 Si	P b c a	18.251; 8.814; 5.181 90; 90; 90	833.438	Yang, H.; Ghose, S. High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 296 K Physics and Chemistry of Minerals, 1995, 22, 300-310
9006338	CIF	Mg O3 Si	P b c a	18.341; 8.889; 5.219 90; 90; 90	850.87	Yang, H.; Ghose, S. High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 900 K Physics and Chemistry of Minerals, 1995, 22, 300-310
9006339	CIF	Mg O3 Si	P b c a	18.413; 8.929; 5.246 90; 90; 90	862.493	Yang, H.; Ghose, S. High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 1200 K Physics and Chemistry of Minerals, 1995, 22, 300-310
9006340	CIF	Mg O3 Si	P b c a	18.456; 8.96; 5.27 90; 90; 90	871.478	Yang, H.; Ghose, S. High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 1360 K Physics and Chemistry of Minerals, 1995, 22, 300-310
9006341	CIF	Mg O3 Si	P b c n	9.306; 8.886; 5.36 90; 90; 90	443.235	Yang, H.; Ghose, S. High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 1360 K Physics and Chemistry of Minerals, 1995, 22, 300-310
9006342	CIF	Mg O3 Si	P b c n	9.315; 8.899; 5.365 90; 90; 90	444.727	Yang, H.; Ghose, S. High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 1400 K Physics and Chemistry of Minerals, 1995, 22, 300-310
9006343	CIF	Al3 Ca Cl1.12 K0.99 Na2.01 O13.76 S0.44 Si3	P 63	12.784; 12.784; 5.346 90; 90; 120	756.647	Bonaccorsi, E.; Comodi, P.; Merlino, S. Thermal behaviour of davyne-group minerals Sample: T = 293 K Physics and Chemistry of Minerals, 1995, 22, 367-374
9006344	CIF	Al3 Ca Cl1.12 K0.99 Na2.01 O13.5 S0.44 Si3	P 63/m	12.871; 12.871; 5.371 90; 90; 120	770.567	Bonaccorsi, E.; Comodi, P.; Merlino, S. Thermal behaviour of davyne-group minerals Sample: T = 943 K Physics and Chemistry of Minerals, 1995, 22, 367-374
9006345	CIF	Na2 O7 Si3	C 1 2/c 1	8.922; 4.849; 11.567 90; 102.64; 90	488.292	Fleet, M. E.; Henderson, G. S. Soidium trisilicate: A new high-pressure silicate structure (Na2Si[Si2O7]) Physics and Chemistry of Minerals, 1995, 22, 383-386
9006346	CIF	Al K O8 Si3	C 1 2/m 1	8.58804; 13.00492; 7.19238 90; 116.026; 90	721.836	Tseng, H.-Y.; Heaney, P. J.; Onstott, T. C. Characterization of lattice strain induced by neutron irradiation Sample: Unirradiated Physics and Chemistry of Minerals, 1995, 22, 399-405
9006347	CIF	Al K O8 Si3	C 1 2/m 1	8.59122; 13.00089; 7.19192 90; 116.009; 90	721.938	Tseng, H.-Y.; Heaney, P. J.; Onstott, T. C. Characterization of lattice strain induced by neutron irradiation Sample: neutron dose = 6.3*10^18 n/cm2 Physics and Chemistry of Minerals, 1995, 22, 399-405
9006348	CIF	Al K O8 Si3	C 1 2/m 1	8.59046; 12.99323; 7.18763 90; 115.99; 90	721.135	Tseng, H.-Y.; Heaney, P. J.; Onstott, T. C. Characterization of lattice strain induced by neutron irradiation Sample: neutron dose = 1.26*10^19 n/cm2 Physics and Chemistry of Minerals, 1995, 22, 399-405
9006349	CIF	Cu F3 K	I 4/m c m	5.8604; 5.8604; 7.8528 90; 90; 90	269.699	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 1.000 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006350	CIF	Cu0.95 F3 K Mg0.05	I 4/m c m	5.8564; 5.8564; 7.8555 90; 90; 90	269.423	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.950 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006351	CIF	Cu0.9 F3 K Mg0.1	I 4/m c m	5.8488; 5.8488; 7.8585 90; 90; 90	268.827	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.900 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006352	CIF	Cu0.85 F3 K Mg0.15	I 4/m c m	5.8423; 5.8423; 7.8647 90; 90; 90	268.442	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.850 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006353	CIF	Cu0.8 F3 K Mg0.2	I 4/m c m	5.8311; 5.8311; 7.8746 90; 90; 90	267.75	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.800 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006354	CIF	Cu0.75 F3 K Mg0.25	I 4/m c m	5.8149; 5.8149; 7.8863 90; 90; 90	266.66	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.750 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006355	CIF	Cu0.7 F3 K Mg0.3	I 4/m c m	5.8018; 5.8018; 7.9006 90; 90; 90	265.941	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.700 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006356	CIF	Cu0.65 F3 K Mg0.35	I 4/m c m	5.7746; 5.7746; 7.9245 90; 90; 90	264.25	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.650 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006357	CIF	Cu0.575 F3 K Mg0.425	P m -3 m	4.0226; 4.0226; 4.0226 90; 90; 90	65.091	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.575 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006358	CIF	Cu0.5 F3 K Mg0.5	P m -3 m	4.0112; 4.0112; 4.0112 90; 90; 90	64.539	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.500 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006359	CIF	Cu0.4 F3 K Mg0.6	P m -3 m	4.0068; 4.0068; 4.0068 90; 90; 90	64.327	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.400 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006360	CIF	Cu0.3 F3 K Mg0.7	P m -3 m	3.9987; 3.9987; 3.9987 90; 90; 90	63.938	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.300 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006361	CIF	Cu0.2 F3 K Mg0.8	P m -3 m	3.9978; 3.9978; 3.9978 90; 90; 90	63.894	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.200 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006362	CIF	Cu0.1 F3 K Mg0.9	P m -3 m	3.9894; 3.9894; 3.9894 90; 90; 90	63.493	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.100 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006363	CIF	F3 K Mg	P m -3 m	3.9859; 3.9859; 3.9859 90; 90; 90	63.326	Burns, P. C.; Hawthorne, F. C.; Hofmeister, A. M.; Moret, S. L. A structural phase-transition in K(Mg1-xCux)F3 perovskite Sample: x = 0.000 Physics and Chemistry of Minerals, 1996, 23, 141-150
9006364	CIF	Al2 Ca H9.4 O17.77 Si4	C 1 2/m 1	14.8066; 13.1678; 7.5389 90; 110.647; 90	1375.45	Stahl, K.; Artioli, G.; Hanson, J. C. The dehydration process in the zeolite laumontite: a real-time synchrotron X-ray powder diffraction study Sample: T = 310 K Physics and Chemistry of Minerals, 1996, 23, 328-336
9006365	CIF	Al2 Ca H7.92 O16.96 Si4	C 1 2/m 1	14.7612; 13.0891; 7.548 90; 111.804; 90	1354.02	Stahl, K.; Artioli, G.; Hanson, J. C. The dehydration process in the zeolite laumontite: a real-time synchrotron X-ray powder diffraction study Sample: T = 367 K Physics and Chemistry of Minerals, 1996, 23, 328-336
9006366	CIF	Al2 Ca H6.1 O16.1 Si4	C 1 2/m 1	14.6967; 13.0756; 7.47 90; 111.785; 90	1332.98	Stahl, K.; Artioli, G.; Hanson, J. C. The dehydration process in the zeolite laumontite: a real-time synchrotron X-ray powder diffraction study Sample: T = 425 K Physics and Chemistry of Minerals, 1996, 23, 328-336
9006367	CIF	Al2 Ca H4.24 O14.53 Si4	C 1 2/m 1	14.5601; 13.1629; 7.4291 90; 110.582; 90	1332.93	Stahl, K.; Artioli, G.; Hanson, J. C. The dehydration process in the zeolite laumontite: a real-time synchrotron X-ray powder diffraction study Sample: T = 500 K Physics and Chemistry of Minerals, 1996, 23, 328-336
9006368	CIF	Al2 Ca H3.68 O14.13 Si4	C 1 2/m 1	14.5279; 13.1979; 7.437 90; 110.368; 90	1336.8	Stahl, K.; Artioli, G.; Hanson, J. C. The dehydration process in the zeolite laumontite: a real-time synchrotron X-ray powder diffraction study Sample: T = 584 K Physics and Chemistry of Minerals, 1996, 23, 328-336
9006369	CIF	Cl Na	F m -3 m	5.5937; 5.5937; 5.5937 90; 90; 90	175.024	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 50 K, Molar volume = 26.35 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006370	CIF	Cl Na	F m -3 m	5.5986; 5.5986; 5.5986 90; 90; 90	175.484	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 100 K, Molar volume = 26.42 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006371	CIF	Cl Na	F m -3 m	5.6071; 5.6071; 5.6071 90; 90; 90	176.285	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 150 K, Molar volume = 26.54 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006372	CIF	Cl Na	F m -3 m	5.6162; 5.6162; 5.6162 90; 90; 90	177.145	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 200 K, Molar volume = 26.67 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006373	CIF	Cl Na	F m -3 m	5.6267; 5.6267; 5.6267 90; 90; 90	178.14	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 250 K, Molar volume = 26.82 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006374	CIF	Cl Na	F m -3 m	5.6379; 5.6379; 5.6379 90; 90; 90	179.206	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 300 K, Molar volume = 26.98 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006375	CIF	Cl Na	F m -3 m	5.6497; 5.6497; 5.6497 90; 90; 90	180.333	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 350 K, Molar volume = 27.15 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006376	CIF	Cl Na	F m -3 m	5.6622; 5.6622; 5.6622 90; 90; 90	181.533	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 400 K, Molar volume = 27.33 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006377	CIF	Cl Na	F m -3 m	5.6746; 5.6746; 5.6746 90; 90; 90	182.728	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 450 K, Molar volume = 27.51 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006378	CIF	Cl Na	F m -3 m	5.6869; 5.6869; 5.6869 90; 90; 90	183.919	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 500 K, Molar volume = 27.69 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006379	CIF	Cl Na	F m -3 m	5.6999; 5.6999; 5.6999 90; 90; 90	185.183	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 550 K, Molar volume = 27.88 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006380	CIF	Cl Na	F m -3 m	5.7135; 5.7135; 5.7135 90; 90; 90	186.512	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 600 K, Molar volume = 28.08 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006381	CIF	Cl Na	F m -3 m	5.7277; 5.7277; 5.7277 90; 90; 90	187.906	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 650 K, Molar volume = 28.29 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006382	CIF	Cl Na	F m -3 m	5.7425; 5.7425; 5.7425 90; 90; 90	189.366	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 700 K, Molar volume = 28.51 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006383	CIF	Cl Na	F m -3 m	5.7579; 5.7579; 5.7579 90; 90; 90	190.894	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 750 K, Molar volume = 28.74 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006384	CIF	Cl Na	F m -3 m	5.7739; 5.7739; 5.7739 90; 90; 90	192.49	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 800 K, Molar volume = 28.98 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006385	CIF	Cl Na	F m -3 m	5.7904; 5.7904; 5.7904 90; 90; 90	194.145	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 850 K, Molar volume = 29.23 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006386	CIF	Cl Na	F m -3 m	5.8076; 5.8076; 5.8076 90; 90; 90	195.88	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 900 K, Molar volume = 29.49 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006387	CIF	Cl Na	F m -3 m	5.8259; 5.8259; 5.8259 90; 90; 90	197.738	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 950 K, Molar volume = 29.77 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006388	CIF	Cl Na	F m -3 m	5.8447; 5.8447; 5.8447 90; 90; 90	199.658	Wang, K.; Reeber, R. R. Thermal expansion of alkali halides at high pressure: NaCl as an example Sample: T = 100 K, Molar volume = 30.06 cc/mol Physics and Chemistry of Minerals, 1996, 23, 354-360
9006389	CIF	H Mg3.47 O8 Si2	I m m a	5.663; 11.546; 8.247 90; 90; 90	539.23	Kudoh, Y.; Inoue, T.; Arashi, H. Structure and crystal chemistry of hydrous wadsleyite, Mg1.75SiH0.5O4: possible hydrous magnesium silicate in the mantle transition zone Physics and Chemistry of Minerals, 1996, 23, 461-469
9006390	CIF	Co2 O4 Si	P b n m	4.7825; 10.304; 6.0041 90; 90; 90	295.875	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M00 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006391	CIF	Co1.75 Mg0.25 O4 Si	P b n m	4.7814; 10.2924; 6.0007 90; 90; 90	295.307	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M13 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006392	CIF	Co1.5 Mg0.5 O4 Si	P b n m	4.7773; 10.28; 5.9971 90; 90; 90	294.521	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M251 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006393	CIF	Co1.249 Mg0.749 O4 Si	P b n m	4.7754; 10.2672; 5.9942 90; 90; 90	293.896	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M38 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006394	CIF	Co Mg O4 Si	P b n m	4.7713; 10.2533; 5.9911 90; 90; 90	293.094	Muller-Sommer M; Hock R; Kirfel A Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M502 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006395	CIF	Co0.75 Mg1.25 O4 Si	P b n m	4.7679; 10.24; 5.9884 90; 90; 90	292.373	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M62 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006396	CIF	Co0.499 Mg1.499 O4 Si	P b n m	4.7633; 10.229; 5.9874 90; 90; 90	291.729	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M75 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006397	CIF	Co0.249 Mg1.749 O4 Si	P b n m	4.7585; 10.2148; 5.9846 90; 90; 90	290.894	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M87 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006398	CIF	Mg2 O4 Si	P b n m	4.7536; 10.2066; 5.9845 90; 90; 90	290.357	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: MR100 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006399	CIF	Co Mg O4 Si	P b n m	4.7717; 10.2542; 5.9914 90; 90; 90	293.159	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M501 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006401	CIF	Co Mg O4 Si	P b n m	4.7715; 10.2535; 5.9912 90; 90; 90	293.117	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M503 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006402	CIF	Co Mg O4 Si	P b n m	4.7713; 10.2536; 5.9915 90; 90; 90	293.122	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: M504 Physics and Chemistry of Minerals, 1997, 24, 17-23
9006403	CIF	Co Mg O4 Si	P b n m	4.7715; 10.2537; 5.9912 90; 90; 90	293.123	Muller-Sommer M; Hock, R.; Kirfel, A. Rietveld refinement study of the cation distribution in (Co, Mg)-olivine solid solution Sample: average Physics and Chemistry of Minerals, 1997, 24, 17-23
9006404	CIF	Al O4 P	P 32 2 1	4.9438; 4.9438; 10.9498 90; 90; 120	231.771	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 25 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006405	CIF	Al O4 P	P 32 2 1	4.949; 4.949; 10.955 90; 90; 120	232.369	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 92 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006406	CIF	Al O4 P	P 32 2 1	4.958; 4.958; 10.967 90; 90; 120	233.47	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 183 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006407	CIF	Al O4 P	P 32 2 1	4.9688; 4.9688; 10.979 90; 90; 120	234.745	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 275 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006408	CIF	Al O4 P	P 32 2 1	4.9799; 4.9799; 10.992 90; 90; 120	236.074	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 366 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006409	CIF	Al O4 P	P 32 2 1	4.9939; 4.9939; 11.01 90; 90; 120	237.792	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 458 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006410	CIF	Al O4 P	P 32 2 1	5; 5; 11.016 90; 90; 120	238.503	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 486 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006411	CIF	Al O4 P	P 32 2 1	5.0017; 5.0017; 11.019 90; 90; 120	238.731	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 523 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006412	CIF	Al O4 P	P 32 2 1	5.017; 5.017; 11.038 90; 90; 120	240.608	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 568 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006413	CIF	Al O4 P	P 62 2 2	5.0387; 5.0387; 11.061 90; 90; 120	243.199	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 585 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006414	CIF	Al O4 P	P 62 2 2	5.04; 5.04; 11.063 90; 90; 120	243.369	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 589 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006415	CIF	Al O4 P	P 62 2 2	5.04; 5.04; 11.061 90; 90; 120	243.325	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 598 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006416	CIF	Al O4 P	P 62 2 2	5.0401; 5.0401; 11.063 90; 90; 120	243.378	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 612 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006417	CIF	Al O4 P	P 62 2 2	5.0402; 5.0402; 11.063 90; 90; 120	243.388	Muraoka, Y.; Kihara, K. The temperature dependence of the crystal structure of berlinite, a quartz-type form of AlPO4 Sample: T = 631 C Physics and Chemistry of Minerals, 1997, 24, 243-253
9006418	CIF	Al2.96 Ba0.01 Ca0.01 Fe0.01 H4 K0.1 Mg0.006 Mn0.002 Na0.88 O12 Si3.01 Ti0.007	C 1 2/c 1	5.135; 8.906; 19.384 90; 94.6; 90	883.62	Comodi, P.; Zanazzi, P. F. Pressure dependence of structural parameters of paragonite Sample: P = .0001 kbar Note: z-coordinate for T1 altered by author, Dec 2003 Physics and Chemistry of Minerals, 1997, 24, 274-280
9006419	CIF	Al2.96 Ba0.01 Ca0.01 Fe0.01 H2 K0.1 Mg0.006 Mn0.002 Na0.88 O12 Si3.01 Ti0.007	C 1 2/c 1	5.134; 8.906; 19.32 90; 94.5; 90	880.653	Comodi, P.; Zanazzi, P. F. Pressure dependence of structural parameters of paragonite Sample: P = 0.05 GPa Physics and Chemistry of Minerals, 1997, 24, 274-280
9006420	CIF	Al2.96 Ba0.01 Ca0.01 Fe0.01 H2 K0.1 Mg0.006 Mn0.002 Na0.88 O12 Si3.01 Ti0.007	C 1 2/c 1	5.082; 8.813; 18.91 90; 94.7; 90	844.087	Comodi, P.; Zanazzi, P. F. Pressure dependence of structural parameters of paragonite Sample: P = 2.54 GPa Physics and Chemistry of Minerals, 1997, 24, 274-280
9006421	CIF	Al2.96 Ba0.01 Ca0.01 Fe0.01 H2 K0.1 Mg0.006 Mn0.002 Na0.88 O12 Si3.01 Ti0.007	C 1 2/c 1	5.062; 8.769; 18.64 90; 95.2; 90	824	Comodi, P.; Zanazzi, P. F. Pressure dependence of structural parameters of paragonite Sample: P = 4.05 GPa Physics and Chemistry of Minerals, 1997, 24, 274-280
9006422	CIF	Fe O3 Si	P b c a	18.417; 9.073; 5.239 90; 90; 90	875.423	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 0 GPa Physics and Chemistry of Minerals, 1997, 24, 301-310
9006423	CIF	Fe O3 Si	P b c a	18.3988; 9.0444; 5.2245 90; 90; 90	869.389	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = .83 GPa Physics and Chemistry of Minerals, 1997, 24, 301-310
9006424	CIF	Fe O3 Si	P b c a	18.37; 9.006; 5.2084 90; 90; 90	861.679	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 1.71 GPa Physics and Chemistry of Minerals, 1997, 24, 301-310
9006425	CIF	Fe O3 Si	P b c a	18.341; 8.966; 5.1925 90; 90; 90	853.883	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 2.84 GPa Physics and Chemistry of Minerals, 1997, 24, 301-310
9006426	CIF	Fe O3 Si	P b c a	18.311; 8.939; 5.181 90; 90; 90	848.037	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 3.65 GPa Physics and Chemistry of Minerals, 1997, 24, 301-310
9006427	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.2974; 8.904; 5.2092 90; 90; 90	848.683	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 0.00 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006428	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.2351; 8.8492; 5.1839 90; 90; 90	836.505	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 1.54 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006429	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.197; 8.82; 5.171 90; 90; 90	829.933	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 2.50 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006430	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.174; 8.7953; 5.1608 90; 90; 90	824.932	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 3.17 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006431	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.1418; 8.7682; 5.1495 90; 90; 90	819.136	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 4.14 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006432	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.124; 8.754; 5.144 90; 90; 90	816.134	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 4.76 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006433	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.0912; 8.724; 5.1315 90; 90; 90	809.892	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 5.77 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006434	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.0665; 8.706; 5.1236 90; 90; 90	805.875	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 6.59 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006435	CIF	Fe0.41 Mg0.59 O3 Si	P b c a	18.035; 8.682; 5.1138 90; 90; 90	800.718	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 7.50 GPa, synthetic En60 orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006436	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18.231; 8.8095; 5.1873 90; 90; 90	833.111	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 0.00 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006437	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18.189; 8.7765; 5.1723 90; 90; 90	825.684	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 1.04 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006438	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18.16; 8.7503; 5.1606 90; 90; 90	820.047	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 1.90 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006439	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18.115; 8.7184; 5.1472 90; 90; 90	812.917	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 3.00 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006440	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18.077; 8.6907; 5.1349 90; 90; 90	806.702	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 4.03 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006441	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18.051; 8.6683; 5.1244 90; 90; 90	801.822	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 4.93 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006442	CIF	Al0.14 Ca0.012 Fe0.24 Mg1.66 O6 Si1.94	P b c a	18; 8.642; 5.115 90; 90; 90	795.669	Hugh-Jones D A; Chopelas, A.; Angel, R. J. Tetrahedral compression in (Mg,Fe)SiO3 orthopyroxenes Sample: P = 6.01 GPa, natural orthopyroxene Physics and Chemistry of Minerals, 1997, 24, 301-310
9006443	CIF	Al2 Ca H6 O13 Si3	F 1 d 1	18.502; 18.974; 6.525 90; 90.615; 90	2290.51	Stuckenschmidt, E.; Joswig, W.; Baur, W. H.; Hofmeister, W. Scolecite, Part I: Refinement of high-order data, separation of internal and external vibrational amplitudes from displacement parameters Physics and Chemistry of Minerals, 1997, 24, 403-410
9006444	CIF	As3 Bi Cu6 H60 O21	P 63/m	13.633; 13.633; 5.913 90; 90; 120	951.747	Miletich, R.; Zemann, J.; Nowak, M. Reversible hydration in synthetic mixite, BiCu6(OH)6(AsO4)3.nH2O(n<=3): hydration kinetics and crystal chemistry Sample: H20 Physics and Chemistry of Minerals, 1997, 24, 411-422
9006445	CIF	As3 Bi Cu6 H36 O19	P 63/m	13.631; 13.631; 5.905 90; 90; 120	950.18	Miletich, R.; Zemann, J.; Nowak, M. Reversible hydration in synthetic mixite, BiCu6(OH)6(AsO4)3.nH2O(n<=3): hydration kinetics and crystal chemistry Sample: N2 Physics and Chemistry of Minerals, 1997, 24, 411-422
9006446	CIF	Al H2 K O9 Si3	P 6/m m m	5.3348; 5.3348; 7.7057 90; 90; 120	189.924	Fasshauer, D. W.; Chatterjee, N. D.; Marler, B. Synthesis, structure, thermodynamic properties, and stability relations of K-cymrite, K[AlSi3O8].H2O Physics and Chemistry of Minerals, 1997, 24, 455-462
9006447	CIF	Cu0.564 Mg1.436 O6 Si2	P b c a	18.221; 8.89; 5.226 90; 90; 90	846.532	Tachi, T.; Horiuchi, H.; Nagasawa, H. Structure of Cu-bearing orthopyroxene, Mg(Cu.56,Mg.44)Si2O6, and behavior of Cu2+ in the orthopyroxene structure Physics and Chemistry of Minerals, 1997, 24, 463-476
9006448	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.8338; 7.8338; 5.0082 90; 90; 90	307.345	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 0.0 GPa Physics and Chemistry of Minerals, 1997, 24, 510-519
9006449	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.8154; 7.8154; 4.9919 90; 90; 90	304.908	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 0.80 GPa Physics and Chemistry of Minerals, 1997, 24, 510-519
9006450	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.8071; 7.8071; 4.9821 90; 90; 90	303.663	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 1.25 GPa Physics and Chemistry of Minerals, 1997, 24, 510-519
9006451	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.8046; 7.8046; 4.9772 90; 90; 90	303.17	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 1.37 GPa Physics and Chemistry of Minerals, 1997, 24, 510-519
9006452	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.7937; 7.7937; 4.9696 90; 90; 90	301.862	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 1.80 GPa Physics and Chemistry of Minerals, 1997, 24, 510-519
9006453	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.7677; 7.7677; 4.9495 90; 90; 90	298.639	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 2.78 GPa Note: O2-z changed to match reported bond lengths Physics and Chemistry of Minerals, 1997, 24, 510-519
9006454	CIF	Ca2 Mg O7 Si2	P -4 21 m	7.7494; 7.7494; 4.9328 90; 90; 90	296.23	Yang, H.; Hazen, R. M.; Downs, R. T.; Finger, L. W. Structural change associated with the incommensurate-normal phase transition in akermanite, Ca2MgSi2O7, at high pressure Sample: P = 3.79 GPa Physics and Chemistry of Minerals, 1997, 24, 510-519
9006455	CIF	Ca2 O6 Si Ti	F m -3 m	7.41; 7.41; 7.41 90; 90; 90	406.869	Leinenweber, K.; Grzechnik, A.; Voorhees, M.; Navrotsky, A.; Yao, A.; McMillan, P. F. Structural variations in Ca(TixSi1-x)O3 perovskites (1>x>0.65) and the ordered phase Ca2TiSiO6 Physics and Chemistry of Minerals, 1997, 24, 528-534
9006456	CIF	Mg O	F m -3 m	4.211; 4.211; 4.211 90; 90; 90	74.672	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 298 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006457	CIF	Mg O	F m -3 m	4.2181; 4.2181; 4.2181 90; 90; 90	75.05	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 455 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006458	CIF	Mg O	F m -3 m	4.2318; 4.2318; 4.2318 90; 90; 90	75.784	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 710 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006459	CIF	Mg O	F m -3 m	4.2483; 4.2483; 4.2483 90; 90; 90	76.674	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 905 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006460	CIF	Mg O	F m -3 m	4.2576; 4.2576; 4.2576 90; 90; 90	77.178	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1096 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006461	CIF	Mg O	F m -3 m	4.2665; 4.2665; 4.2665 90; 90; 90	77.663	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1205 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006462	CIF	Mg O	F m -3 m	4.2703; 4.2703; 4.2703 90; 90; 90	77.871	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1305 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006463	CIF	Mg O	F m -3 m	4.2736; 4.2736; 4.2736 90; 90; 90	78.052	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1365 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006464	CIF	Mg O	F m -3 m	4.282; 4.282; 4.282 90; 90; 90	78.513	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1527 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006465	CIF	Mg O	F m -3 m	4.2924; 4.2924; 4.2924 90; 90; 90	79.086	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1598 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006466	CIF	Mg O	F m -3 m	4.2993; 4.2993; 4.2993 90; 90; 90	79.468	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1685 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006467	CIF	Mg O	F m -3 m	4.3089; 4.3089; 4.3089 90; 90; 90	80.002	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1870 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006468	CIF	Mg O	F m -3 m	4.3141; 4.3141; 4.3141 90; 90; 90	80.292	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1915 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006469	CIF	Mg O	F m -3 m	4.3272; 4.3272; 4.3272 90; 90; 90	81.025	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2055 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006470	CIF	Mg O	F m -3 m	4.3305; 4.3305; 4.3305 90; 90; 90	81.211	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2106 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006471	CIF	Mg O	F m -3 m	4.3425; 4.3425; 4.3425 90; 90; 90	81.888	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2245 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006472	CIF	Mg O	F m -3 m	4.3481; 4.3481; 4.3481 90; 90; 90	82.205	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2297 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006473	CIF	Mg O	F m -3 m	4.3554; 4.3554; 4.3554 90; 90; 90	82.62	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2395 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006474	CIF	Mg O	F m -3 m	4.3564; 4.3564; 4.3564 90; 90; 90	82.677	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2408 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006475	CIF	Mg O	F m -3 m	4.3741; 4.3741; 4.3741 90; 90; 90	83.689	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2592 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006476	CIF	Mg O	F m -3 m	4.3842; 4.3842; 4.3842 90; 90; 90	84.27	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2703 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006477	CIF	Mg O	F m -3 m	4.3915; 4.3915; 4.3915 90; 90; 90	84.691	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2785 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006478	CIF	Mg O	F m -3 m	4.3971; 4.3971; 4.3971 90; 90; 90	85.016	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2848 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006479	CIF	Mg O	F m -3 m	4.4041; 4.4041; 4.4041 90; 90; 90	85.422	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2912 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006480	CIF	Mg O	F m -3 m	4.4112; 4.4112; 4.4112 90; 90; 90	85.836	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2986 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006481	CIF	Mg O	F m -3 m	4.4195; 4.4195; 4.4195 90; 90; 90	86.322	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3031 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006482	CIF	Mg O	F m -3 m	4.4424; 4.4424; 4.4424 90; 90; 90	87.67	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3065 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006483	CIF	Mg O	F m -3 m	4.4453; 4.4453; 4.4453 90; 90; 90	87.842	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3086 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006484	CIF	Mg O	F m -3 m	4.4403; 4.4403; 4.4403 90; 90; 90	87.546	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3040 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006485	CIF	Mg O	F m -3 m	4.4166; 4.4166; 4.4166 90; 90; 90	86.152	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3015 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006486	CIF	W	I m -3 m	3.1648; 3.1648; 3.1648 90; 90; 90	31.699	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 298 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006487	CIF	W	I m -3 m	3.1672; 3.1672; 3.1672 90; 90; 90	31.771	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 455 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006488	CIF	W	I m -3 m	3.1731; 3.1731; 3.1731 90; 90; 90	31.949	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 905 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006489	CIF	W	I m -3 m	3.1738; 3.1738; 3.1738 90; 90; 90	31.97	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 918 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006490	CIF	W	I m -3 m	3.1775; 3.1775; 3.1775 90; 90; 90	32.082	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1205 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006491	CIF	W	I m -3 m	3.1804; 3.1804; 3.1804 90; 90; 90	32.17	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1363 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006492	CIF	W	I m -3 m	3.1822; 3.1822; 3.1822 90; 90; 90	32.224	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1410 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006493	CIF	W	I m -3 m	3.1837; 3.1837; 3.1837 90; 90; 90	32.27	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1527 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006494	CIF	W	I m -3 m	3.1824; 3.1824; 3.1824 90; 90; 90	32.23	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1537 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006495	CIF	W	I m -3 m	3.1866; 3.1866; 3.1866 90; 90; 90	32.358	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1685 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006496	CIF	W	I m -3 m	3.1913; 3.1913; 3.1913 90; 90; 90	32.501	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1846 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006497	CIF	W	I m -3 m	3.1908; 3.1908; 3.1908 90; 90; 90	32.486	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 1870 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006498	CIF	W	I m -3 m	3.1926; 3.1926; 3.1926 90; 90; 90	32.541	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2032 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006499	CIF	W	I m -3 m	3.1946; 3.1946; 3.1946 90; 90; 90	32.602	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2171 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006500	CIF	W	I m -3 m	3.1979; 3.1979; 3.1979 90; 90; 90	32.704	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2310 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006501	CIF	W	I m -3 m	3.2026; 3.2026; 3.2026 90; 90; 90	32.848	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2450 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006502	CIF	W	I m -3 m	3.2079; 3.2079; 3.2079 90; 90; 90	33.011	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2620 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006503	CIF	W	I m -3 m	3.2094; 3.2094; 3.2094 90; 90; 90	33.058	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2720 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006504	CIF	W	I m -3 m	3.2116; 3.2116; 3.2116 90; 90; 90	33.126	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2774 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006505	CIF	W	I m -3 m	3.2134; 3.2134; 3.2134 90; 90; 90	33.181	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2830 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006506	CIF	W	I m -3 m	3.2165; 3.2165; 3.2165 90; 90; 90	33.277	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2929 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006507	CIF	W	I m -3 m	3.2219; 3.2219; 3.2219 90; 90; 90	33.445	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3130 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006508	CIF	W	I m -3 m	3.2238; 3.2238; 3.2238 90; 90; 90	33.505	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3190 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006509	CIF	W	I m -3 m	3.2275; 3.2275; 3.2275 90; 90; 90	33.62	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3316 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006510	CIF	W	I m -3 m	3.2332; 3.2332; 3.2332 90; 90; 90	33.799	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3470 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006511	CIF	W	I m -3 m	3.2358; 3.2358; 3.2358 90; 90; 90	33.88	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3548 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006512	CIF	W	I m -3 m	3.23; 3.23; 3.23 90; 90; 90	33.698	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3430 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006513	CIF	W	I m -3 m	3.2248; 3.2248; 3.2248 90; 90; 90	33.536	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 3220 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006514	CIF	W	I m -3 m	3.2166; 3.2166; 3.2166 90; 90; 90	33.281	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2986 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006515	CIF	W	I m -3 m	3.2131; 3.2131; 3.2131 90; 90; 90	33.172	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2785 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006516	CIF	W	I m -3 m	3.2099; 3.2099; 3.2099 90; 90; 90	33.073	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2650 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006517	CIF	W	I m -3 m	3.2087; 3.2087; 3.2087 90; 90; 90	33.036	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2592 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006518	CIF	W	I m -3 m	3.2015; 3.2015; 3.2015 90; 90; 90	32.814	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2395 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006519	CIF	W	I m -3 m	3.1979; 3.1979; 3.1979 90; 90; 90	32.704	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2245 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006520	CIF	W	I m -3 m	3.1946; 3.1946; 3.1946 90; 90; 90	32.602	Dubrovinsky, L. S.; Saxena, S. K. Thermal expansion of periclase (MgO) and tungsten (W) to melting temperatures Sample: T = 2055 K Physics and Chemistry of Minerals, 1997, 24, 547-550
9006521	CIF	Cr2 S4 Zn	F d -3 m :2	9.9736; 9.9736; 9.9736 90; 90; 90	992.101	Wittlinger, J.; Werner, S.; Schulz, H. On the amorphisation of ZnCr2S4 spinel under high pressure: x-ray diffraction studies Sample: P = 0 GPa Physics and Chemistry of Minerals, 1997, 24, 597-600
9006522	CIF	Cr2 S4 Zn	F d -3 m :2	9.9306; 9.9306; 9.9306 90; 90; 90	979.324	Wittlinger, J.; Werner, S.; Schulz, H. On the amorphisation of ZnCr2S4 spinel under high pressure: x-ray diffraction studies Sample: P = 1.06 GPa Physics and Chemistry of Minerals, 1997, 24, 597-600
9006523	CIF	Cr2 S4 Zn	F d -3 m :2	9.8415; 9.8415; 9.8415 90; 90; 90	953.2	Wittlinger, J.; Werner, S.; Schulz, H. On the amorphisation of ZnCr2S4 spinel under high pressure: x-ray diffraction studies Sample: P = 4.2 GPa Physics and Chemistry of Minerals, 1997, 24, 597-600
9006524	CIF	Cr2 S4 Zn	F d -3 m :2	9.7738; 9.7738; 9.7738 90; 90; 90	933.663	Wittlinger, J.; Werner, S.; Schulz, H. On the amorphisation of ZnCr2S4 spinel under high pressure: x-ray diffraction studies Sample: P = 7.19 GPa Physics and Chemistry of Minerals, 1997, 24, 597-600
9006525	CIF	Al2 O5 Si	P b n m	7.4857; 7.675; 5.7751 90; 90; 90	331.795	Yang, H.; Hazen, R. M.; Finger, L. W.; Prewitt, C. T.; Downs, R. T. Compressibility and crystal structure of sillimanite, Al2SiO5, at high pressure Sample: P = 0.00 GPa Physics and Chemistry of Minerals, 1997, 25, 39-47
9006526	CIF	Al2 O5 Si	P b n m	7.4732; 7.652; 5.7631 90; 90; 90	329.562	Yang, H.; Hazen, R. M.; Finger, L. W.; Prewitt, C. T.; Downs, R. T. Compressibility and crystal structure of sillimanite, Al2SiO5, at high pressure Sample: P = 1.23 GPa Physics and Chemistry of Minerals, 1997, 25, 39-47
9006527	CIF	Al2 O5 Si	P b n m	7.4537; 7.6238; 5.756 90; 90; 90	327.088	Yang, H.; Hazen, R. M.; Finger, L. W.; Prewitt, C. T.; Downs, R. T. Compressibility and crystal structure of sillimanite, Al2SiO5, at high pressure Sample: P = 2.54 GPa Physics and Chemistry of Minerals, 1997, 25, 39-47
9006528	CIF	Al2 O5 Si	P b n m	7.4345; 7.5989; 5.7507 90; 90; 90	324.88	Yang, H.; Hazen, R. M.; Finger, L. W.; Prewitt, C. T.; Downs, R. T. Compressibility and crystal structure of sillimanite, Al2SiO5, at high pressure Sample: P = 3.72 GPa Physics and Chemistry of Minerals, 1997, 25, 39-47
9006529	CIF	Al2 O5 Si	P b n m	7.4146; 7.5739; 5.745 90; 90; 90	322.624	Yang, H.; Hazen, R. M.; Finger, L. W.; Prewitt, C. T.; Downs, R. T. Compressibility and crystal structure of sillimanite, Al2SiO5, at high pressure Sample: P = 5.29 GPa Physics and Chemistry of Minerals, 1997, 25, 39-47
9006530	CIF	D2 Mn O2	P -3 m 1	3.318; 3.318; 4.717 90; 90; 120	44.973	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 0.0 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006531	CIF	D2 Mn O2	P -3 m 1	3.305; 3.305; 4.675 90; 90; 120	44.224	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 0.7 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006532	CIF	D2 Mn O2	P -3 m 1	3.281; 3.281; 4.579 90; 90; 120	42.689	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 2.4 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006533	CIF	D2 Mn O2	P -3 m 1	3.25; 3.25; 4.497 90; 90; 120	41.136	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 4.6 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006534	CIF	D2 Mn O2	P -3 m 1	3.208; 3.208; 4.416 90; 90; 120	39.358	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 7.8 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006535	CIF	Co D2 O2	P -3 m 1	3.1834; 3.1834; 4.6445 90; 90; 120	40.762	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 0.0 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006536	CIF	Co D2 O2	P -3 m 1	3.167; 3.167; 4.6 90; 90; 120	39.956	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 0.5 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006537	CIF	Co D2 O2	P -3 m 1	3.139; 3.139; 4.483 90; 90; 120	38.254	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 3.3 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006538	CIF	Co D2 O2	P -3 m 1	3.109; 3.109; 4.414 90; 90; 120	36.949	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 5.6 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006539	CIF	Co D2 O2	P -3 m 1	3.084; 3.084; 4.363 90; 90; 120	35.937	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 7.5 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006540	CIF	Co D2 O2	P -3 m 1	3.059; 3.059; 4.283 90; 90; 120	34.709	Parise, J. B.; Theroux, B.; Li, R.; Loveday, J. S.; Marshall, W. G.; Klotz, S. Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron powder diffraction study of Mn(OD)2 and beta-Co(OD)2. Sample: P = 9.5 GPa Physics and Chemistry of Minerals, 1998, 25, 130-137
9006541	CIF	Mn7 O12 Si	I 41/a c d :2	9.4264; 9.4264; 18.6962 90; 90; 90	1661.29	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample in air: P = 0.0001 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006542	CIF	Mn7 O12 Si	I 41/a c d :2	9.4266; 9.4266; 18.6952 90; 90; 90	1661.27	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample in Diamond Anvil Cell without pressure medium: P = 0.0001 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006543	CIF	Mn7 O12 Si	I 41/a c d :2	9.4007; 9.4007; 18.6574 90; 90; 90	1648.81	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample: P = 1.38 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006544	CIF	Mn7 O12 Si	I 41/a c d :2	9.3786; 9.3786; 18.6234 90; 90; 90	1638.08	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample: P = 2.66 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006545	CIF	Mn7 O12 Si	I 41/a c d :2	9.348; 9.348; 18.5739 90; 90; 90	1623.08	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample: P = 4.51 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006546	CIF	Mn7 O12 Si	I 41/a c d :2	9.3309; 9.3309; 18.5455 90; 90; 90	1614.68	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample: P = 5.63 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006547	CIF	Mn7 O12 Si	I 41/a c d :2	9.2998; 9.2998; 18.4957 90; 90; 90	1599.62	Miletich, R.; Allan, D. R.; Angel, R. J. Structural control of polyhedral compression in synthetic braunite, Mn2+Mn3+6O8SiO4 Sample: P = 7.69 GPa Physics and Chemistry of Minerals, 1998, 25, 183-192
9006555	CIF	Fe0.39 Mg0.61 O3 Si	P 1 21/c 1	9.6519; 8.9075; 5.2004 90; 108.59; 90	423.773	Angel, R. J.; McCammon, C. A.; Woodland, A. B. Structure, ordering and cation interactions in Ca-free P2_1/c clinopyroxenes Sample: H162 Note: x coordinate of O2B changed by author, May, 2004 Physics and Chemistry of Minerals, 1998, 25, 249-258
9006556	CIF	Al2 Mg3 O12 Si3	I a -3 d	11.4545; 11.4545; 11.4545 90; 90; 90	1502.89	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 0.0 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006557	CIF	Al2 Mg3 O12 Si3	I a -3 d	11.3846; 11.3846; 11.3846 90; 90; 90	1475.55	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 3.48 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006558	CIF	Al2 Mg3 O12 Si3	I a -3 d	11.2893; 11.2893; 11.2893 90; 90; 90	1438.8	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 8.57 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006559	CIF	Al2 Mg3 O12 Si3	I a -3 d	11.2353; 11.2353; 11.2353 90; 90; 90	1418.25	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 11.53 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006560	CIF	Al2 Mg3 O12 Si3	I a -3 d	11.1717; 11.1717; 11.1717 90; 90; 90	1394.31	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 15.28 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006561	CIF	Al2 Mg3 O12 Si3	I a -3 d	11.0335; 11.0335; 11.0335 90; 90; 90	1343.2	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 24.07 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006562	CIF	Al2 Mg3 O12 Si3	I a -3 d	10.9339; 10.9339; 10.9339 90; 90; 90	1307.15	Zhang, L.; Ahsbahs, H.; Kutoglu, A. Hydrostatic compression and crystal structure of pyrope to 33 GPa Sample: P = 32.47 GPa Physics and Chemistry of Minerals, 1998, 25, 301-307
9006563	CIF	Al1.388 Ca0.742 Fe0.162 Mg0.016 O6 Si1.5	C 1 2/c 1	9.719; 8.814; 5.305 90; 106.04; 90	436.752	Okui, M.; Sawada, H.; Marumo, F. Structure refinement of a nonstoichiometric pyroxene synthesized under ambient pressure Physics and Chemistry of Minerals, 1998, 25, 318-322
9006564	CIF	Al0.536 Fe2 H2 Na0.5 O12 Si3.464	C 1 2/m 1	5.277; 9.14; 9.78 90; 101; 90	463.04	Manceau, A.; Chateigner, D.; Gates, W. P. Polarized EXAFS, distance-valence least-squares modelling (DVLS), and quantitative texture analysis approaches to the structural refinement of Garfield nontronite Physics and Chemistry of Minerals, 1998, 25, 347-365
9006565	CIF	Fe6.5 H2 Mg0.1 Mn0.4 O24 Si8	P n m n	9.388; 18.387; 5.347 90; 90; 90	922.984	Sueno, S.; Matsuura, S.; Gibbs, G. V.; Boisen, M. B. A crystal chemical study of protoanthophyllite: orthoamphiboles with the protoamphibole structure Sample: PFA Hiruka Village Physics and Chemistry of Minerals, 1998, 25, 366-377
9006566	CIF	Fe4.699 H2 Mg0.901 Mn1.4 O24 Si8	P n m n	9.425; 18.303; 5.345 90; 90; 90	922.043	Sueno, S.; Matsuura, S.; Gibbs, G. V.; Boisen, M. B. A crystal chemical study of protoanthophyllite: orthoamphiboles with the protoamphibole structure Sample: PMFA Yokene Mine Physics and Chemistry of Minerals, 1998, 25, 366-377
9006567	CIF	Cd K2 O4 Si	F -4 3 m	7.947; 7.947; 7.947 90; 90; 90	501.891	Dollase, W. A. Transformations of the stuffed cristobalites, K2MSiO4, M = Mg, Zn, Co, Cd, with temperature and composition Physics and Chemistry of Minerals, 1998, 25, 389-392
9006568	CIF	Ca O5 Si2	P -1	7.243; 7.546; 6.501 81.43; 84.82; 69.6	329.031	Kudoh, Y.; Kanzaki, M. Crystal chemical characteristics of alpha-CaSi2O5, a new high pressure calcium silicate with five-coordinated silicon synthesized at 1500 C and 10 GPa Physics and Chemistry of Minerals, 1998, 25, 429-433
9006569	CIF	Al1.839 Cr0.078 Fe0.283 Mg0.777 Ni0.014 O4 Si0.003 Zn0.007	F d -3 m :2	8.1252; 8.1252; 8.1252 90; 90; 90	536.417	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B1, unheated, T = 25 C Physics and Chemistry of Minerals, 1998, 25, 541-547
9006570	CIF	Al1.835 Cr0.078 Fe0.29 Mg0.774 Ni0.014 O4 Si0.002 Zn0.007	F d -3 m :2	8.1233; 8.1233; 8.1233 90; 90; 90	536.04	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B2, quenched from T = 1150 C after 3 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006571	CIF	Al1.839 Cr0.078 Fe0.283 Mg0.777 Ni0.014 O4 Si0.003 Zn0.007	F d -3 m :2	8.1218; 8.1218; 8.1218 90; 90; 90	535.743	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B3, quenched from T = 1150 C after 5 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006572	CIF	Al1.835 Cr0.079 Fe0.221 Mg0.775 Ni0.014 O4 Zn0.007	F d -3 m :2	8.107; 8.107; 8.107 90; 90; 90	532.82	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B4, quenched from T = 1150 C after 27 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006573	CIF	Al1.84 Cr0.078 Fe0.213 Mg0.776 Ni0.014 O4 Si0.003 Zn0.007	F d -3 m :2	8.1082; 8.1082; 8.1082 90; 90; 90	533.057	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B5, quenched from T = 1150 C after 49 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006574	CIF	Al1.838 Cr0.078 Fe0.216 Mg0.776 Ni0.014 O4 Si0.002 Zn0.007	F d -3 m :2	8.106; 8.106; 8.106 90; 90; 90	532.623	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B6, quenched from T = 1150 C after 202 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006575	CIF	Al1.839 Cr0.078 Fe0.216 Mg0.776 Ni0.014 O4 Si0.002 Zn0.007	F d -3 m :2	8.111; 8.111; 8.111 90; 90; 90	533.609	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: TS11B7, temperature lowered from T = 1150 C to 280 C in 117 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006576	CIF	Al1.808 Cr0.127 Fe0.225 Mg0.825 Ni0.008 O4 Si0.001 Ti0.004 Zn0.002	F d -3 m :2	8.1259; 8.1259; 8.1259 90; 90; 90	536.555	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: LE20A1, unheated Physics and Chemistry of Minerals, 1998, 25, 541-547
9006577	CIF	Al1.802 Cr0.125 Fe0.219 Mg0.808 Ni0.008 O4 Si0.001 Ti0.004 Zn0.002	F d -3 m :2	8.1171; 8.1171; 8.1171 90; 90; 90	534.814	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: LE20A3, quenched from T = 1150 C after 0.5 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006578	CIF	Al1.775 Cr0.125 Fe0.218 Mg0.808 Ni0.008 O4 Si0.002 Ti0.004 Zn0.002	F d -3 m :2	8.1166; 8.1166; 8.1166 90; 90; 90	534.715	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: LE20A4, quenched from T = 1150 C after 5.5 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006579	CIF	Al1.771 Cr0.125 Fe0.222 Mg0.808 Ni0.009 O4 Si0.001 Ti0.004 Zn0.002	F d -3 m :2	8.1142; 8.1142; 8.1142 90; 90; 90	534.241	Menegazzo, G.; Carbonin, S. Oxidation mechanisms in Al-Mg-Fe spinels. A second stage: alpha-Fe2O3 exsolution Sample: LE20A5, quenched from T = 1150 C after 30.5 hours Physics and Chemistry of Minerals, 1998, 25, 541-547
9006580	CIF	Al O3 Sc	P b n m	4.9371; 5.2322; 7.2042 90; 90; 90	186.098	Ross, N. L. High pressure study of ScAlO3 perovskite Sample: P = 0.0 GPa Physics and Chemistry of Minerals, 1998, 25, 597-602
9006581	CIF	Al O3 Sc	P b n m	4.9192; 5.2155; 7.1684 90; 90; 90	183.913	Ross, N. L. High pressure study of ScAlO3 perovskite Sample: P = 2.58 GPa Physics and Chemistry of Minerals, 1998, 25, 597-602
9006582	CIF	Al O3 Sc	P b n m	4.9149; 5.2121; 7.162 90; 90; 90	183.469	Ross, N. L. High pressure study of ScAlO3 perovskite Sample: P = 3.21 GPa Physics and Chemistry of Minerals, 1998, 25, 597-602
9006583	CIF	Al O3 Sc	P b n m	4.904; 5.2033; 7.1416 90; 90; 90	182.232	Ross, N. L. High pressure study of ScAlO3 perovskite Sample: P = 4.72 GPa Physics and Chemistry of Minerals, 1998, 25, 597-602
9006584	CIF	Mn5 O12 Si3	I a -3 d	11.788; 11.788; 11.788 90; 90; 90	1638.02	Arlt, T.; Armbruster, T.; Miletich, R.; Ulmer, P.; Peters, T. High pressure single-crystal synthesis, structure and compressibility of the garnet Mn2+3Mn3+2[SiO4]3 Sample: T = 100 K Physics and Chemistry of Minerals, 1998, 26, 100-106
9006585	CIF	Mn5 O12 Si3	I a -3 d	11.801; 11.801; 11.801 90; 90; 90	1643.45	Arlt, T.; Armbruster, T.; Miletich, R.; Ulmer, P.; Peters, T. High pressure single-crystal synthesis, structure and compressibility of the garnet Mn2+3Mn3+2[SiO4]3 Sample: T = 298 K Physics and Chemistry of Minerals, 1998, 26, 100-106
9006586	CIF	Al1.01 H2 O8.79 Si2.99 Sr0.517	P 1 21/m 1	6.676; 16.547; 7.543 90; 94.41; 90	830.791	Alberti, A.; Sacerdoti, M.; Quartieri, S.; Vezzalini, G. Heating-induced phase transformation in zeolite brewsterite: new 4- and 5-coordinated (Si,Al) sites Sample: BR280R Physics and Chemistry of Minerals, 1999, 26, 181-186
9006587	CIF	Fe	I m -3 m	2.8654; 2.8654; 2.8654 90; 90; 90	23.526	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 0.0 GPa, T = 298 K, prior to experiment Physics and Chemistry of Minerals, 1999, 26, 206-211
9006588	CIF	Fe	I m -3 m	2.8658; 2.8658; 2.8658 90; 90; 90	23.536	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 0.0 GPa, T = 300 K, after experiment Physics and Chemistry of Minerals, 1999, 26, 206-211
9006589	CIF	Fe	I m -3 m	2.8591; 2.8591; 2.8591 90; 90; 90	23.372	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 1.3 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006590	CIF	Fe	I m -3 m	2.8484; 2.8484; 2.8484 90; 90; 90	23.11	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.0 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006591	CIF	Fe	I m -3 m	2.8409; 2.8409; 2.8409 90; 90; 90	22.928	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 4.3 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006592	CIF	Fe	I m -3 m	2.8339; 2.8339; 2.8339 90; 90; 90	22.759	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.6 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006593	CIF	Fe	I m -3 m	2.8285; 2.8285; 2.8285 90; 90; 90	22.629	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006594	CIF	Fe	I m -3 m	2.8213; 2.8213; 2.8213 90; 90; 90	22.457	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.1 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006595	CIF	Fe	I m -3 m	2.8652; 2.8652; 2.8652 90; 90; 90	23.521	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 1.8 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006596	CIF	Fe	I m -3 m	2.8544; 2.8544; 2.8544 90; 90; 90	23.257	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.6 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006597	CIF	Fe	I m -3 m	2.8468; 2.8468; 2.8468 90; 90; 90	23.071	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 4.9 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006598	CIF	Fe	I m -3 m	2.8396; 2.8396; 2.8396 90; 90; 90	22.897	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.1 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006599	CIF	Fe	I m -3 m	2.8339; 2.8339; 2.8339 90; 90; 90	22.759	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.2 GPa, T = 572 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006600	CIF	Fe	I m -3 m	2.826; 2.826; 2.826 90; 90; 90	22.569	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.7 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006601	CIF	Fe	I m -3 m	2.8716; 2.8716; 2.8716 90; 90; 90	23.679	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 2.3 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006602	CIF	Fe	I m -3 m	2.8599; 2.8599; 2.8599 90; 90; 90	23.391	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006603	CIF	Fe	I m -3 m	2.8515; 2.8515; 2.8515 90; 90; 90	23.186	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.3 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006604	CIF	Fe	I m -3 m	2.8434; 2.8434; 2.8434 90; 90; 90	22.989	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006605	CIF	Fe	I m -3 m	2.8373; 2.8373; 2.8373 90; 90; 90	22.841	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.7 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006606	CIF	Fe	I m -3 m	2.8317; 2.8317; 2.8317 90; 90; 90	22.706	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006607	CIF	Fe0.91 Si0.09	I m -3 m	2.8429; 2.8429; 2.8429 90; 90; 90	22.977	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 0.0 GPa, T = 298 K, prior to the experiment Physics and Chemistry of Minerals, 1999, 26, 206-211
9006608	CIF	Fe0.91 Si0.09	I m -3 m	2.8436; 2.8436; 2.8436 90; 90; 90	22.994	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 0.0 GPa, T = 300 K, after the experiment Physics and Chemistry of Minerals, 1999, 26, 206-211
9006609	CIF	Fe0.91 Si0.09	I m -3 m	2.8369; 2.8369; 2.8369 90; 90; 90	22.831	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 1.3 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006610	CIF	Fe0.91 Si0.09	I m -3 m	2.827; 2.827; 2.827 90; 90; 90	22.593	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.0 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006611	CIF	Fe0.91 Si0.09	I m -3 m	2.819; 2.819; 2.819 90; 90; 90	22.402	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 4.3 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006612	CIF	Fe0.91 Si0.09	I m -3 m	2.8121; 2.8121; 2.8121 90; 90; 90	22.238	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.6 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006613	CIF	Fe0.91 Si0.09	I m -3 m	2.8063; 2.8063; 2.8063 90; 90; 90	22.101	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006614	CIF	Fe0.91 Si0.09	I m -3 m	2.7995; 2.7995; 2.7995 90; 90; 90	21.94	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.1 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006615	CIF	Fe0.91 Si0.09	I m -3 m	2.8438; 2.8438; 2.8438 90; 90; 90	22.998	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 1.8 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006616	CIF	Fe0.91 Si0.09	I m -3 m	2.8335; 2.8335; 2.8335 90; 90; 90	22.749	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.6 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006617	CIF	Fe0.91 Si0.09	I m -3 m	2.8251; 2.8251; 2.8251 90; 90; 90	22.548	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 4.9 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006618	CIF	Fe0.91 Si0.09	I m -3 m	2.818; 2.818; 2.818 90; 90; 90	22.378	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.1 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006619	CIF	Fe0.91 Si0.09	I m -3 m	2.812; 2.812; 2.812 90; 90; 90	22.235	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.2 GPa, T = 572 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006620	CIF	Fe0.91 Si0.09	I m -3 m	2.8063; 2.8063; 2.8063 90; 90; 90	22.101	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.7 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006621	CIF	Fe0.91 Si0.09	I m -3 m	2.8492; 2.8492; 2.8492 90; 90; 90	23.13	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 2.3 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006622	CIF	Fe0.91 Si0.09	I m -3 m	2.8392; 2.8392; 2.8392 90; 90; 90	22.887	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006623	CIF	Fe0.91 Si0.09	I m -3 m	2.8304; 2.8304; 2.8304 90; 90; 90	22.675	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.3 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006624	CIF	Fe0.91 Si0.09	I m -3 m	2.8224; 2.8224; 2.8224 90; 90; 90	22.483	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006625	CIF	Fe0.91 Si0.09	I m -3 m	2.8159; 2.8159; 2.8159 90; 90; 90	22.328	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.7 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006626	CIF	Fe0.91 Si0.09	I m -3 m	2.8105; 2.8105; 2.8105 90; 90; 90	22.2	Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211
9006627	CIF	Al1.971 Fe0.23 Mg0.7 O4	F d -3 m :2	8.067; 8.067; 8.067 90; 90; 90	524.972	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 300 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006628	CIF	Al1.971 Fe0.23 Mg0.7 O4	F d -3 m :2	8.0811; 8.0811; 8.0811 90; 90; 90	527.73	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 523 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006629	CIF	Al1.971 Fe0.23 Mg0.7 O4	F d -3 m :2	8.0973; 8.0973; 8.0973 90; 90; 90	530.91	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 773 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006630	CIF	Al1.969 Fe0.23 Mg0.701 O4	F d -3 m :2	8.1115; 8.1115; 8.1115 90; 90; 90	533.708	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 973 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006631	CIF	Al1.969 Fe0.23 Mg0.701 O4	F d -3 m :2	8.1256; 8.1256; 8.1256 90; 90; 90	536.496	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1123 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006632	CIF	Al1.969 Fe0.23 Mg0.701 O4	F d -3 m :2	8.1437; 8.1437; 8.1437 90; 90; 90	540.089	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1273 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006633	CIF	Al1.969 Fe0.23 Mg0.701 O4	F d -3 m :2	8.1612; 8.1612; 8.1612 90; 90; 90	543.578	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1423 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006634	CIF	Al1.969 Fe0.23 Mg0.701 O4	F d -3 m :2	8.1768; 8.1768; 8.1768 90; 90; 90	546.701	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1573 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006635	CIF	Al1.969 Fe0.23 Mg0.701 O4	F d -3 m :2	8.1907; 8.1907; 8.1907 90; 90; 90	549.494	Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1723 K Physics and Chemistry of Minerals, 1999, 26, 242-250
9006636	CIF	Mg1.82 O4 Si	C 1 2/m 1 (a+c-1/4,b+1/4,c)	5.674; 11.477; 8.235 90; 90.21; 90	536.264	Kudoh, Y.; Inoue, T. Mg-vacant structural modules and dilution of the symmetry of hydrous wadsleyite, beta-Mg2-xSiH2xO4 with 0.00<=x<=0.25 Sample: 0.3H-beta Physics and Chemistry of Minerals, 1999, 26, 382-388
9006637	CIF	Mg1.72 O4 Si	C 1 2/m 1 (a+c-1/4,b+1/4,c)	5.675; 11.579; 8.244 90; 90.09; 90	541.719	Kudoh, Y.; Inoue, T. Mg-vacant structural modules and dilution of the symmetry of hydrous wadsleyite, beta-Mg2-xSiH2xO4 with 0.00<=x<=0.25 Sample: 0.5H-beta Physics and Chemistry of Minerals, 1999, 26, 382-388
9006638	CIF	La0.34 Na0.45 O3 Th0.13 Ti	I 4/m c m	5.4652; 5.4652; 7.7476 90; 90; 90	231.409	Mitchell, R. H.; Chakhmouradian, A. R. Solid solubility in the system NaLREETi2O6 - ThTi2O6 (LREE, light rare-earth elements): experimental and analytical data Physics and Chemistry of Minerals, 1999, 26, 396-405
9006639	CIF	O6 Th Ti2	C 1 2/m 1	9.814; 3.8228; 7.0313 90; 118.82; 90	231.119	Mitchell, R. H.; Chakhmouradian, A. R. Solid solubility in the system NaLREETi2O6 - ThTi2O6 (LREE, light rare-earth elements): experimental and analytical data Physics and Chemistry of Minerals, 1999, 26, 396-405
9006640	CIF	Cr2 O4 Si	F d d d :2	5.7005; 11.1651; 9.5847 90; 90; 90	610.034	Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample in air: P = 0.0001 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459
9006641	CIF	Cr2 O4 Si	F d d d :2	5.7007; 11.1653; 9.585 90; 90; 90	610.085	Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample in diamond anvil cell: P = 0.0001 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459
9006642	CIF	Cr2 O4 Si	F d d d :2	5.6804; 11.1174; 9.3842 90; 90; 90	592.624	Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 3.106 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459
9006643	CIF	Cr2 O4 Si	F d d d :2	5.665; 11.0863; 9.2742 90; 90; 90	582.456	Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 5.303 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459
9006644	CIF	Cr2 O4 Si	F d d d :2	5.6512; 11.0598; 9.191 90; 90; 90	574.448	Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 7.300 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459
9006645	CIF	Cr2 O4 Si	F d d d :2	5.6374; 11.0375; 9.1192 90; 90; 90	567.422	Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 9.220 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459
9006646	CIF	Ca D4 O6 S	I 1 2/a 1	5.6769; 15.2074; 6.5277 90; 118.494; 90	495.279	Knight, K. S.; Stretton, I. C.; Schofield, P. F. Temperature evolution between 50 K and 320 K of the thermal expansion tensor of gypsum derived from neutron powder diffraction data Sample: T = 320 K Physics and Chemistry of Minerals, 1999, 26, 477-483
9006647	CIF	Al4 Co2 O18 Si5	P 6/m c c	9.841; 9.841; 9.372 90; 90; 120	786.034	Knorr, K.; Meschke, M.; Winkler, B. Structural and magnetic properties of Co2Al4Si5O18 and Mn2Al4Si5O18 cordierite Physics and Chemistry of Minerals, 1999, 26, 521-529
9006648	CIF	Al4 Mn2 O18 Si5	C c c m	17.128; 9.764; 9.147 90; 90; 90	1529.72	Knorr, K.; Meschke, M.; Winkler, B. Structural and magnetic properties of Co2Al4Si5O18 and Mn2Al4Si5O18 cordierite Physics and Chemistry of Minerals, 1999, 26, 521-529
9006649	CIF	Mg O	F m -3 m	3.899; 3.899; 3.899 90; 90; 90	59.273	Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample: P = 61 GPa, T = 300 K Physics and Chemistry of Minerals, 1999, 26, 539-545
9006650	CIF	Mg O	F m -3 m	3.897; 3.897; 3.897 90; 90; 90	59.182	Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample: P = 61 GPa, T = 1550 K Physics and Chemistry of Minerals, 1999, 26, 539-545
9006651	CIF	Ca O5 Si Sn	A 1 2/a 1	7.156; 8.875; 6.66 90; 113.38; 90	388.244	Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 300 K Physics and Chemistry of Minerals, 1999, 26, 546-553
9006652	CIF	Ca O5 Si Sn	A 1 2/a 1	7.16; 8.897; 6.672 90; 113.34; 90	390.244	Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 450 K Physics and Chemistry of Minerals, 1999, 26, 546-553
9006653	CIF	Ca O5 Si Sn	A 1 2/a 1	7.166; 8.903; 6.678 90; 113.39; 90	391.038	Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 550 K Note: U33 for O1 has been altered by personal communication with authors, Dec 2003 Physics and Chemistry of Minerals, 1999, 26, 546-553
9006654	CIF	Ca O5 Si Sn	A 1 2/a 1	7.173; 8.901; 6.683 90; 113.36; 90	391.714	Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 670 K Physics and Chemistry of Minerals, 1999, 26, 546-553
9006655	CIF	Ca O5 Si Sn	A 1 2/a 1	7.167; 8.912; 6.688 90; 113.36; 90	392.163	Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 730 K Note: x-coordinate of O1 altered from the value reported Physics and Chemistry of Minerals, 1999, 26, 546-553
9006656	CIF	Fe	P 63/m m c	2.347; 2.347; 3.797 90; 90; 120	18.113	Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample: epsilon iron phase: P = 61 GPa, T = 300 K Physics and Chemistry of Minerals, 1999, 26, 539-545
9006657	CIF	Fe	P 63/m m c	2.346; 2.346; 3.808 90; 90; 120	18.15	Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample epsilon iron phase: P = 61 GPa, T = 1550 K Physics and Chemistry of Minerals, 1999, 26, 539-545
9006658	CIF	Mn O	F m -3 m	4.4459; 4.4459; 4.4459 90; 90; 90	87.878	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at beginning of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648
9006659	CIF	Mn O	F m -3 m	4.4464; 4.4464; 4.4464 90; 90; 90	87.907	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at end of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648
9006660	CIF	Mn O	F m -3 m	4.4397; 4.4397; 4.4397 90; 90; 90	87.511	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.68 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006661	CIF	Mn O	F m -3 m	4.4326; 4.4326; 4.4326 90; 90; 90	87.091	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 1.43 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006662	CIF	Mn O	F m -3 m	4.4254; 4.4254; 4.4254 90; 90; 90	86.668	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 2.16 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006663	CIF	Mn O	F m -3 m	4.4169; 4.4169; 4.4169 90; 90; 90	86.169	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006664	CIF	Mn O	F m -3 m	4.4106; 4.4106; 4.4106 90; 90; 90	85.801	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006665	CIF	Mn O	F m -3 m	4.4042; 4.4042; 4.4042 90; 90; 90	85.428	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 4.46 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006666	CIF	Mn O	F m -3 m	4.3963; 4.3963; 4.3963 90; 90; 90	84.969	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 5.41 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006667	CIF	Mn O	F m -3 m	4.3891; 4.3891; 4.3891 90; 90; 90	84.552	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.17 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006668	CIF	Mn O	F m -3 m	4.3846; 4.3846; 4.3846 90; 90; 90	84.293	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006669	CIF	Mn O	F m -3 m	4.3792; 4.3792; 4.3792 90; 90; 90	83.982	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 7.27 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006670	CIF	Mn O	F m -3 m	4.3726; 4.3726; 4.3726 90; 90; 90	83.602	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 8.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006671	CIF	Cd O	F m -3 m	4.6963; 4.6963; 4.6963 90; 90; 90	103.578	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at beginning of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648
9006672	CIF	Cd O	F m -3 m	4.6969; 4.6969; 4.6969 90; 90; 90	103.618	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at end of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648
9006673	CIF	Cd O	F m -3 m	4.69; 4.69; 4.69 90; 90; 90	103.162	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.68 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006674	CIF	Cd O	F m -3 m	4.6821; 4.6821; 4.6821 90; 90; 90	102.641	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 1.43 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006675	CIF	Cd O	F m -3 m	4.6749; 4.6749; 4.6749 90; 90; 90	102.168	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 2.16 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006676	CIF	Cd O	F m -3 m	4.6656; 4.6656; 4.6656 90; 90; 90	101.56	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006677	CIF	Cd O	F m -3 m	4.6598; 4.6598; 4.6598 90; 90; 90	101.182	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006678	CIF	Cd O	F m -3 m	4.6522; 4.6522; 4.6522 90; 90; 90	100.687	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 4.46 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006679	CIF	Cd O	F m -3 m	4.6433; 4.6433; 4.6433 90; 90; 90	100.111	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 5.41 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006680	CIF	Cd O	F m -3 m	4.6366; 4.6366; 4.6366 90; 90; 90	99.678	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.17 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006681	CIF	Cd O	F m -3 m	4.6309; 4.6309; 4.6309 90; 90; 90	99.311	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006682	CIF	Cd O	F m -3 m	4.6259; 4.6259; 4.6259 90; 90; 90	98.989	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 7.27 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006683	CIF	Cd O	F m -3 m	4.619; 4.619; 4.619 90; 90; 90	98.547	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 8.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006684	CIF	Cd O	F m -3 m	4.6953; 4.6953; 4.6953 90; 90; 90	103.512	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 0.00 GPa at beginning of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648
9006685	CIF	Cd O	F m -3 m	4.6956; 4.6956; 4.6956 90; 90; 90	103.532	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 0.00 GPa at end of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648
9006686	CIF	Cd O	F m -3 m	4.6833; 4.6833; 4.6833 90; 90; 90	102.72	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 1.25 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006687	CIF	Cd O	F m -3 m	4.6708; 4.6708; 4.6708 90; 90; 90	101.9	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 2.56 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006688	CIF	Cd O	F m -3 m	4.6595; 4.6595; 4.6595 90; 90; 90	101.162	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 3.59 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006689	CIF	Cd O	F m -3 m	4.6502; 4.6502; 4.6502 90; 90; 90	100.558	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 4.52 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006690	CIF	Cd O	F m -3 m	4.6438; 4.6438; 4.6438 90; 90; 90	100.143	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 5.30 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006691	CIF	Cd O	F m -3 m	4.6371; 4.6371; 4.6371 90; 90; 90	99.71	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 6.01 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006692	CIF	Cd O	F m -3 m	4.6217; 4.6217; 4.6217 90; 90; 90	98.72	Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 7.80 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648
9006693	CIF	Al4 Ca O11 Si2	P 63/m m c	5.4223; 5.4223; 12.7041 90; 90; 120	323.476	Gautron, L.; Angel, R. J.; Miletich, R. Structural characterisation of the high-pressure phase CaAl4Si2O11 Note: Biso values altered to agree with the anisotropic values, as indicated by Ross Angel, March 2004 Physics and Chemistry of Minerals, 1999, 27, 47-51
9006694	CIF	Ca O	F m -3 m	4.815; 4.815; 4.815 90; 90; 90	111.632	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 298 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006695	CIF	Ca O	F m -3 m	4.819; 4.819; 4.819 90; 90; 90	111.91	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 407 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006696	CIF	Ca O	F m -3 m	4.827; 4.827; 4.827 90; 90; 90	112.469	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 500 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006697	CIF	Ca O	F m -3 m	4.833; 4.833; 4.833 90; 90; 90	112.889	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 585 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006698	CIF	Ca O	F m -3 m	4.841; 4.841; 4.841 90; 90; 90	113.45	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 688 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006699	CIF	Ca O	F m -3 m	4.846; 4.846; 4.846 90; 90; 90	113.802	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 778 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006700	CIF	Ca O	F m -3 m	4.857; 4.857; 4.857 90; 90; 90	114.579	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 875 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006701	CIF	Ca O	F m -3 m	4.867; 4.867; 4.867 90; 90; 90	115.288	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1001 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006702	CIF	Ca O	F m -3 m	4.876; 4.876; 4.876 90; 90; 90	115.929	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1116 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006703	CIF	Ca O	F m -3 m	4.882; 4.882; 4.882 90; 90; 90	116.357	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1222 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006704	CIF	Ca O	F m -3 m	4.887; 4.887; 4.887 90; 90; 90	116.715	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1289 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006705	CIF	Ca O	F m -3 m	4.894; 4.894; 4.894 90; 90; 90	117.217	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1390 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006706	CIF	Ca O	F m -3 m	4.902; 4.902; 4.902 90; 90; 90	117.793	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1485 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006707	CIF	Ca O	F m -3 m	4.909; 4.909; 4.909 90; 90; 90	118.298	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1573 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006708	CIF	Ca O	F m -3 m	4.915; 4.915; 4.915 90; 90; 90	118.733	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1656 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006709	CIF	Ca O	F m -3 m	4.926; 4.926; 4.926 90; 90; 90	119.532	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1812 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006710	CIF	Ca O	F m -3 m	4.913; 4.913; 4.913 90; 90; 90	118.588	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1882 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006711	CIF	Ca O	F m -3 m	4.937; 4.937; 4.937 90; 90; 90	120.334	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 1964 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006712	CIF	Ca O	F m -3 m	4.811; 4.811; 4.811 90; 90; 90	111.354	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 300 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006713	CIF	Ca O	F m -3 m	4.819; 4.819; 4.819 90; 90; 90	111.91	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 398 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006714	CIF	Ca O	F m -3 m	4.823; 4.823; 4.823 90; 90; 90	112.189	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 528 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006715	CIF	Ca O	F m -3 m	4.83; 4.83; 4.83 90; 90; 90	112.679	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 664 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006716	CIF	Ca O	F m -3 m	4.842; 4.842; 4.842 90; 90; 90	113.521	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 844 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006717	CIF	Ca O	F m -3 m	4.857; 4.857; 4.857 90; 90; 90	114.579	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1022 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006718	CIF	Ca O	F m -3 m	4.888; 4.888; 4.888 90; 90; 90	116.787	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1292 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006719	CIF	Ca O	F m -3 m	4.898; 4.898; 4.898 90; 90; 90	117.505	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1427 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006720	CIF	Ca O	F m -3 m	4.901; 4.901; 4.901 90; 90; 90	117.721	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1548 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006721	CIF	Ca O	F m -3 m	4.908; 4.908; 4.908 90; 90; 90	118.226	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1659 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006722	CIF	Ca O	F m -3 m	4.912; 4.912; 4.912 90; 90; 90	118.515	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1733 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006723	CIF	Ca O	F m -3 m	4.914; 4.914; 4.914 90; 90; 90	118.66	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1711 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006724	CIF	Ca O	F m -3 m	4.92; 4.92; 4.92 90; 90; 90	119.095	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1808 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006725	CIF	Ca O	F m -3 m	4.933; 4.933; 4.933 90; 90; 90	120.042	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1959 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006726	CIF	Ca O	F m -3 m	4.945; 4.945; 4.945 90; 90; 90	120.92	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2114 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006727	CIF	Ca O	F m -3 m	4.956; 4.956; 4.956 90; 90; 90	121.729	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2222 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006728	CIF	Ca O	F m -3 m	4.965; 4.965; 4.965 90; 90; 90	122.393	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2303 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006729	CIF	Ca O	F m -3 m	4.973; 4.973; 4.973 90; 90; 90	122.986	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2362 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006730	CIF	Ca O	F m -3 m	4.977; 4.977; 4.977 90; 90; 90	123.283	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2407 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006731	CIF	Ca O	F m -3 m	4.813; 4.813; 4.813 90; 90; 90	111.493	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 298 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006732	CIF	Ca O	F m -3 m	4.891; 4.891; 4.891 90; 90; 90	117.002	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1473 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006733	CIF	Ca O	F m -3 m	4.907; 4.907; 4.907 90; 90; 90	118.154	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1673 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006734	CIF	Ca O	F m -3 m	4.915; 4.915; 4.915 90; 90; 90	118.733	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1773 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006735	CIF	Ca O	F m -3 m	4.925; 4.925; 4.925 90; 90; 90	119.459	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1873 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006736	CIF	Ca O	F m -3 m	4.932; 4.932; 4.932 90; 90; 90	119.969	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1973 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006737	CIF	Ca O	F m -3 m	4.943; 4.943; 4.943 90; 90; 90	120.774	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2073 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006738	CIF	Ca O	F m -3 m	4.95; 4.95; 4.95 90; 90; 90	121.287	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2173 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006739	CIF	Ca O	F m -3 m	4.964; 4.964; 4.964 90; 90; 90	122.319	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2273 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006740	CIF	Ca O	F m -3 m	4.969; 4.969; 4.969 90; 90; 90	122.689	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2373 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006741	CIF	Ca O	F m -3 m	4.976; 4.976; 4.976 90; 90; 90	123.209	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2473 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006742	CIF	Ca O	F m -3 m	4.987; 4.987; 4.987 90; 90; 90	124.028	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2573 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006743	CIF	Ca O	F m -3 m	4.997; 4.997; 4.997 90; 90; 90	124.775	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2673 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006744	CIF	Ca O	F m -3 m	5.009; 5.009; 5.009 90; 90; 90	125.676	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2773 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006745	CIF	Ca O	F m -3 m	5.025; 5.025; 5.025 90; 90; 90	126.884	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2973 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006746	CIF	Ca O	F m -3 m	5.03; 5.03; 5.03 90; 90; 90	127.264	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 3073 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006747	CIF	Mg O	F m -3 m	4.21; 4.21; 4.21 90; 90; 90	74.618	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 298 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006748	CIF	Mg O	F m -3 m	4.216; 4.216; 4.216 90; 90; 90	74.938	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 421 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006749	CIF	Mg O	F m -3 m	4.222; 4.222; 4.222 90; 90; 90	75.258	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 505 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006750	CIF	Mg O	F m -3 m	4.226; 4.226; 4.226 90; 90; 90	75.472	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 591 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006751	CIF	Mg O	F m -3 m	4.232; 4.232; 4.232 90; 90; 90	75.794	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 694 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006752	CIF	Mg O	F m -3 m	4.237; 4.237; 4.237 90; 90; 90	76.063	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 790 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006753	CIF	Mg O	F m -3 m	4.244; 4.244; 4.244 90; 90; 90	76.441	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 874 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006754	CIF	Mg O	F m -3 m	4.249; 4.249; 4.249 90; 90; 90	76.711	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 964 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006755	CIF	Mg O	F m -3 m	4.257; 4.257; 4.257 90; 90; 90	77.146	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1052 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006756	CIF	Mg O	F m -3 m	4.261; 4.261; 4.261 90; 90; 90	77.363	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1120 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006757	CIF	Mg O	F m -3 m	4.267; 4.267; 4.267 90; 90; 90	77.691	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1211 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006758	CIF	Mg O	F m -3 m	4.276; 4.276; 4.276 90; 90; 90	78.183	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1281 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006759	CIF	Mg O	F m -3 m	4.275; 4.275; 4.275 90; 90; 90	78.128	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1335 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006760	CIF	Mg O	F m -3 m	4.282; 4.282; 4.282 90; 90; 90	78.513	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1446 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006761	CIF	Mg O	F m -3 m	4.293; 4.293; 4.293 90; 90; 90	79.119	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1557 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006762	CIF	Mg O	F m -3 m	4.303; 4.303; 4.303 90; 90; 90	79.674	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1738 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006763	CIF	Mg O	F m -3 m	4.319; 4.319; 4.319 90; 90; 90	80.566	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 1901 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006764	CIF	Mg O	F m -3 m	4.326; 4.326; 4.326 90; 90; 90	80.958	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2036 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006765	CIF	Mg O	F m -3 m	4.336; 4.336; 4.336 90; 90; 90	81.521	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2153 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006766	CIF	Mg O	F m -3 m	4.343; 4.343; 4.343 90; 90; 90	81.916	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2262 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006767	CIF	Mg O	F m -3 m	4.355; 4.355; 4.355 90; 90; 90	82.597	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: IR wire, T = 2385 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006768	CIF	Mg O	F m -3 m	4.212; 4.212; 4.212 90; 90; 90	74.725	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 298 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006769	CIF	Mg O	F m -3 m	4.281; 4.281; 4.281 90; 90; 90	78.458	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1474 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006770	CIF	Mg O	F m -3 m	4.297; 4.297; 4.297 90; 90; 90	79.341	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1664 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006771	CIF	Mg O	F m -3 m	4.305; 4.305; 4.305 90; 90; 90	79.785	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1773 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006772	CIF	Mg O	F m -3 m	4.31; 4.31; 4.31 90; 90; 90	80.063	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1873 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006773	CIF	Mg O	F m -3 m	4.322; 4.322; 4.322 90; 90; 90	80.734	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 1973 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006774	CIF	Mg O	F m -3 m	4.324; 4.324; 4.324 90; 90; 90	80.846	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2073 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006775	CIF	Mg O	F m -3 m	4.343; 4.343; 4.343 90; 90; 90	81.916	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2273 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006776	CIF	Mg O	F m -3 m	4.352; 4.352; 4.352 90; 90; 90	82.426	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2373 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006777	CIF	Mg O	F m -3 m	4.358; 4.358; 4.358 90; 90; 90	82.768	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2473 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006778	CIF	Mg O	F m -3 m	4.371; 4.371; 4.371 90; 90; 90	83.511	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2573 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006779	CIF	Mg O	F m -3 m	4.381; 4.381; 4.381 90; 90; 90	84.085	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2673 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006780	CIF	Mg O	F m -3 m	4.396; 4.396; 4.396 90; 90; 90	84.952	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2773 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006781	CIF	Mg O	F m -3 m	4.403; 4.403; 4.403 90; 90; 90	85.358	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2873 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006782	CIF	Mg O	F m -3 m	4.408; 4.408; 4.408 90; 90; 90	85.649	Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: Re wire, T = 2973 K Physics and Chemistry of Minerals, 1999, 27, 103-111
9006783	CIF	Cr2 Mg O4	F d -3 m :2	8.3327; 8.3327; 8.3327 90; 90; 90	578.572	Tabira, Y.; Withers, R. L. Cation ordering in NiAl2O4 spinel by a 111 systematic row CBED technique Sample: picrochromite Physics and Chemistry of Minerals, 1999, 27, 112-118