Crystallography Open Database

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9001379 CIFMg2 Mn O14 Zn2C 1 2/m 115.405; 6.344; 5.562
90; 101.23; 90
533.163Grice, J. D.; Dunn, P. J.
The crystal structure of cianciulliite, Mn(Mg,Mn)2Zn2(OH)10*2-4H2O
American Mineralogist, 1991, 76, 1711-1747
9001380 CIFAl7.08 F0.25 Fe0.332 H0.6 Mg3.158 O21.75 Si3.56C m c m16.117; 13.728; 6.749
90; 90; 90
1493.24Klaska, R.; Grew, E. S.
The crystal structure of B-free kornerupine: Conditions favoring the incorporation of variable amounts of B through B = Si substitution in kornerupine Note: Sample is from the Sinyoni Claims in the Limpopo Belt near Beit Bridge, Zimbabwe
American Mineralogist, 1991, 76, 1824-1835
9001381 CIFAl0.81 Be2.19 Ca2 H3.52 K Na0.188 O30.668 Si12P 6/m c c10.41; 10.41; 13.845
90; 90; 120
1299.35Hawthorne, F. C.; Kimata, M.; Cerny, P.; Ball, N. A.; Rossman, G. R.; Grice, J. D.
The crystal chemistry of the milarite-group minerals sample #25 from Guanajuato Note: U(1,2) of WatB/NaB changed to match symmetry constraints
American Mineralogist, 1991, 76, 1836-1856
9001382 CIFAl0.729 Be2.271 Ca1.968 H4.48 K Na0.24 O30.72 Si12 Y0.032P 6/m c c10.404; 10.404; 13.825
90; 90; 120
1295.97Hawthorne, F. C.; Kimata, M.; Cerny, P.; Ball, N. A.; Rossman, G. R.; Grice, J. D.
The crystal chemistry of the milarite-group minerals sample #33 from Tittling Note: U(1,2) of WatB/NaB/KC changed to match symmetry constraints
American Mineralogist, 1991, 76, 1836-1856
9001383 CIFAl0.54 Be2.46 Ca2 H8 K Na0.448 O30.92 Si12P 6/m c c10.415; 10.415; 13.763
90; 90; 120
1292.89Hawthorne, F. C.; Kimata, M.; Cerny, P.; Ball, N. A.; Rossman, G. R.; Grice, J. D.
The crystal chemistry of the milarite-group minerals sample #35 from east Siberia Note: U(1,2) of WatB/NaB changed to match symmetry constraints
American Mineralogist, 1991, 76, 1836-1856
9001384 CIFAl0.651 Be2.349 Ca2 H8 K Na0.348 O30.94 Si12P 6/m c c10.396; 10.396; 13.781
90; 90; 120
1289.86Hawthorne, F. C.; Kimata, M.; Cerny, P.; Ball, N. A.; Rossman, G. R.; Grice, J. D.
The crystal chemistry of the milarite-group minerals sample #30 from Rossing
American Mineralogist, 1991, 76, 1836-1856
9001385 CIFAl0.48 Be2.52 Ca1.532 K Na0.048 O30 Si12 Y0.468P 6/m c c10.342; 10.342; 13.777
90; 90; 120
1276.13Hawthorne, F. C.; Kimata, M.; Cerny, P.; Ball, N. A.; Rossman, G. R.; Grice, J. D.
The crystal chemistry of the milarite-group minerals sample #36 from Jaguaracu
American Mineralogist, 1991, 76, 1836-1856
9001386 CIFAl0.36 Be2.64 Ca1.38 K Na0.02 O30 Si12 Y0.62P 6/m c c10.34; 10.34; 13.758
90; 90; 120
1273.88Hawthorne, F. C.; Kimata, M.; Cerny, P.; Ball, N. A.; Rossman, G. R.; Grice, J. D.
The crystal chemistry of the milarite-group minerals sample #37 from Strange Lake
American Mineralogist, 1991, 76, 1836-1856
9001387 CIFCa4.686 F O12 P3 Sr0.314P 63/m9.3902; 9.3902; 6.9011
90; 90; 120
526.985Hughes J M; Cameron M; Crowley K D
Ordering of divalent cations in the apatite structure: Crystal structure refinements of natural Mn- and Sr-bearing apatite sample Sr.63
American Mineralogist, 1991, 76, 1857-1862
9001388 CIFCa4.852 F0.89 O12 P3 Sr0.148P 63/m9.3786; 9.3786; 6.8922
90; 90; 120
525.006Hughes J M; Cameron M; Crowley K D
Ordering of divalent cations in the apatite structure: Crystal structure refinements of natural Mn- and Sr-bearing apatite sample Sr.29
American Mineralogist, 1991, 76, 1857-1862
9001389 CIFCa4.395 F0.74 Mn0.605 O12 P3P 63/m9.343; 9.343; 6.8227
90; 90; 120
515.774Hughes J M; Cameron M; Crowley K D
Ordering of divalent cations in the apatite structure: Crystal structure refinements of natural Mn- and Sr-bearing apatite sample Mn1.21
American Mineralogist, 1991, 76, 1857-1862
9001390 CIFCa4.791 F0.93 Mn0.211 O12 P3P 63/m9.3596; 9.3596; 6.8603
90; 90; 120
520.461Hughes J M; Cameron M; Crowley K D
Ordering of divalent cations in the apatite structure: Crystal structure refinements of natural Mn- and Sr-bearing apatite sample Mn.42
American Mineralogist, 1991, 76, 1857-1862
9001391 CIFAl4.08 Ca1.82 H12.76 K0.4 Mg0.04 Na4 O48.76 Si13.92C 1 2/m 117.64; 17.94; 7.405
90; 116.53; 90
2096.64Armbruster, T.; Gunter, M. E.
Stepwise dehydration of heulandite-clinoptilolite from Succor Creek, Oregon, U.S.A.: A single-crystal X-ray study at 100 K sample name: natural
American Mineralogist, 1991, 76, 1872-1883
9001392 CIFAl4.08 Ca0.9 H12.44 K0.14 Mg0.08 Na2.12 O48.44 Si13.92C 1 2/m 117.628; 17.902; 7.403
90; 116.52; 90
2090.39Armbruster, T.; Gunter, M. E.
Stepwise dehydration of heulandite-clinoptilolite from Succor Creek, Oregon, U.S.A.: A single-crystal X-ray study at 100K sample name: dehyd1
American Mineralogist, 1991, 76, 1872-1883
9001393 CIFAl4.08 Ca0.772 H8.82 K0.1 Mg0.05 Na1.64 O44.82 Si13.92C 1 2/m 117.607; 17.692; 7.412
90; 116.84; 90
2060.13Armbruster, T.; Gunter, M. E.
Stepwise dehydration of heulandite-clinoptilolite from Succor Creek, Oregon, U.S.A.: A single-crystal X-ray study at 100K sample name: dehyd2
American Mineralogist, 1991, 76, 1872-1883
9001394 CIFAl4.08 Ca0.66 H7.96 K0.36 Na1.56 O43.96 Si13.92C 1 2/m 117.576; 17.58; 7.403
90; 116.97; 90
2038.65Armbruster, T.; Gunter, M. E.
Stepwise dehydration of heulandite-clinoptilolite from Succor Creek, Oregon, U.S.A.: A single-crystal X-ray study at 100K sample name: dehyd3
American Mineralogist, 1991, 76, 1872-1883
9001395 CIFAl4.08 Ca0.88 H1.86 K0.26 Na1.2 O37.86 Si13.92C 1 2/m 117; 16.66; 7.35
90; 116.44; 90
1863.93Armbruster, T.; Gunter, M. E.
Stepwise dehydration of heulandite-clinoptilolite from Succor Creek, Oregon, U.S.A.: A single-crystal X-ray study at 100K sample name: dehyd4
American Mineralogist, 1991, 76, 1872-1883
9001396 CIFCl3 Cs H12 Mg O6P 16.7507; 13.495; 6.75
90.13; 91.15; 90.18
614.801Waizumi, K.; Masuda, H.; Ohtaki, H.; Scripkin, M. Y.; Burkov, K. A.
Crystallographic investigations of [Mg(H2O)6]XCl3 double salts (X = K, Rb, Cs, NH4): Crystal structure of [Mg(H2O)6]CsCl3 Note: modified perovskite structure
American Mineralogist, 1991, 76, 1884-1888
9001397 CIFFe0.333 Nb0.501 O2 Ta0.166P b c n14.189; 5.727; 5.12
90; 90; 90
416.053Wenger, M.; Armbruster, T.; Geiger, C. A.
Cation distribution in partially ordered columbite from the Kings Mountain pegmatite, North Carolina sample NCP5, T = 100 K
American Mineralogist, 1991, 76, 1897-1904
9001398 CIFFe0.333 Nb0.5 O2 Ta0.167P b c n14.221; 5.727; 5.102
90; 90; 90
415.526Wenger, M.; Armbruster, T.; Geiger, C. A.
Cation distribution in partially ordered columbite from the Kings Mountain pegmatite, North Carolina SAMPLE ncp1, T = 293 K
American Mineralogist, 1991, 76, 1897-1904
9001399 CIFFe1.5 Mn1.5 O8 P2P 1 21/c 18.757; 11.381; 6.136
90; 99.09; 90
603.855Steele, I. M.; Olsen, E.; Pluth, J. J.; Davis, A. M.
Occurrence and crystal structure of Ca-free beusite in the El Sampal IIIA iron meteorite
American Mineralogist, 1991, 76, 1985-1989
9001400 CIFAl9 H18 K4.002 Na10.998 O44.997 S1.5 Si9P 6322.121; 22.121; 5.221
90; 90; 120
2212.55Merlino, S.; Mellini, M.; Bonaccorsi, E.; Pasero, M.; Leoni, L.; Orlandi, P.
Pitiglianoite, a new feldspathoid from southern Tuscany, Italy: Chemical composition and crystal structure
American Mineralogist, 1991, 76, 2003-2008
9001401 CIFB Na O8 Si3C -17.8388; 12.373; 6.8082
93.324; 116.381; 92.014
589.191Fleet, M. E.
Tetrahedral-site occupancies in reedmergnerite and synthetic boron albite (NaBSi3O8) sample from Utah
American Mineralogist, 1992, 77, 76-84
9001402 CIFB Na O8 Si2.9C -17.852; 12.35; 6.806
93.37; 116.3; 91.58
589.59Fleet, M. E.
Tetrahedral-site occupancies in reedmergnerite and synthetic boron albite (NaBSi3O8) sample low boron albite Gb100
American Mineralogist, 1992, 77, 76-84
9001403 CIFB Na O8 Si3C -17.91; 12.336; 6.82
93.54; 116.13; 90.6
595.799Fleet, M. E.
Tetrahedral-site occupancies in reedmergnerite and synthetic boron albite (NaBSi3O8) sample high boron albite Gb87
American Mineralogist, 1992, 77, 76-84
9001404 CIFAl1.5 Ca0.704 H18 Na0.2 O11.02 Si2.5I -4 m 29.9266; 9.9266; 10.3031
90; 90; 90
1015.24Artioli, G.
The crystal structure of garronite sample from Goble, Oregon
American Mineralogist, 1992, 77, 189-196
9001405 CIFAl0.75 Ca0.436 H4.63 O5.57 Si1.25I -4 m 29.8712; 9.8712; 10.2987
90; 90; 90
1003.51Artioli, G.
The crystal structure of garronite sample from Fara Vicentina, Italy
American Mineralogist, 1992, 77, 189-196
9001406 CIFAg Br0.18 Cl0.82 Hg SP 21 21 26.803; 12.87; 4.528
90; 90; 90
396.447Mason, B.; Mumme, W. G.; Sarp, H.
Capgaronnite, HgSAg(Cl,Br,I), a new sulfide-halide mineral from Var, France
American Mineralogist, 1992, 77, 197-200
9001407 CIFFe1.616 Mg12.364 O24 Si5P m c b5.908; 14.241; 10.069
90; 90; 90
847.164Hazen, R. M.; Finger, L. W.; Ko, J.
Crystal chemistry of Fe-bearing anhydrous phase B: Implications for transition zone mineralogy
American Mineralogist, 1992, 77, 217-220
9001408 CIFAl2 O5 SiP b n m7.4841; 7.672; 5.7707
90; 90; 90
331.342Bish, D. L.; Burnham, C. W.
Rietveld refinement of the crystal structure of fibrolitic sillimanite using neutron powder diffraction data
American Mineralogist, 1992, 77, 374-379
9001409 CIFAl2 Ca0.75 Fe1.89 Mg0.24 Mn0.09 O12 Si3I 41/a c d :211.6207; 11.6207; 11.623
90; 90; 90
1569.58Griffen, D. T.; Hatch, D. M.; Phillips, W. R.; Kulaksiz, S.
Crystal chemistry and symmetry of a birefringent tetragonal pyralspite75-grandite25 garnet
American Mineralogist, 1992, 77, 399-406
9001410 CIFAl4.281 Cs0.281 Mg2 O18 Si4.719P 6/m c c9.801; 9.801; 9.381
90; 90; 120
780.406Daniels, P.
Structural effects of the incorporation of large-radius alkalis in high cordierite
American Mineralogist, 1992, 77, 407-411
9001411 CIFC2 Ca0.997 Fe0.676 Mg0.273 Mn0.054 O6R -3 :H4.836; 4.836; 16.186
90; 90; 120
327.826Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 0.00 GPa
American Mineralogist, 1992, 77, 412-421
9001412 CIFC2 Ca0.997 Fe0.676 Mg0.273 Mn0.054 O6R -3 :H4.8163; 4.8163; 15.992
90; 90; 120
321.263Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 1.90 GPa
American Mineralogist, 1992, 77, 412-421
9001413 CIFC2 Ca0.997 Fe0.676 Mg0.273 Mn0.054 O6R -3 :H4.807; 4.807; 15.881
90; 90; 120
317.802Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 2.97 GPa
American Mineralogist, 1992, 77, 412-421
9001414 CIFC2 Ca0.997 Fe0.676 Mg0.273 Mn0.054 O6R -3 :H4.799; 4.799; 15.792
90; 90; 120
314.97Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 4.00 GPa
American Mineralogist, 1992, 77, 412-421
9001415 CIFC2 Ca Mg O6R -3 :H4.8064; 4.8064; 16.006
90; 90; 120
320.224Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 0.00 GPa
American Mineralogist, 1992, 77, 412-421
9001416 CIFC2 Ca Mg O6R -3 :H4.791; 4.791; 15.856
90; 90; 120
315.193Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 1.50 GPa
American Mineralogist, 1992, 77, 412-421
9001417 CIFC2 Ca Mg O6R -3 :H4.7777; 4.7777; 15.73
90; 90; 120
310.955Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 2.90 GPa
American Mineralogist, 1992, 77, 412-421
9001418 CIFC2 Ca Mg O6R -3 :H4.7703; 4.7703; 15.653
90; 90; 120
308.475Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 3.70 GPa
American Mineralogist, 1992, 77, 412-421
9001419 CIFC2 Ca Mg O6R -3 :H4.7636; 4.7636; 15.582
90; 90; 120
306.214Ross, N. L.; Reeder, R. J.
High-pressure structural study of dolomite and ankerite P = 4.69 GPa
American Mineralogist, 1992, 77, 412-421
9001420 CIFAl6 Ba Ca2 H2 O32 Si9P n n a13.874; 18.66; 10.697
90; 90; 90
2769.33Armbruster, T.; Czank, M.
H2O ordering and superstructures in armenite, BaCa2Al6Si9O30.2H2O: A single-crystal X-ray and TEM study sample from Remigny, Quebec, Canada
American Mineralogist, 1992, 77, 422-430
9001421 CIFFe2.68 O4 Si0.32P m m a5.867; 8.917; 8.362
90; 90; 90
437.467Ross, C. R.; Armbruster, T.; Canil, D.
Crystal structure refinement of a spinelloid in the system Fe3O4-Fe2SiO4
American Mineralogist, 1992, 77, 507-511
9001422 CIFAl2 Mg3 O12 Si3I a -3 d11.441; 11.441; 11.441
90; 90; 90
1497.59Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py100-Alm0 at T = 100 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001423 CIFAl2 Fe0.6 Mg2.4 O12 Si3I a -3 d11.458; 11.458; 11.458
90; 90; 90
1504.27Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py80-Alm20 at T = 100 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001424 CIFAl2 Fe1.2 Mg1.8 O12 Si3I a -3 d11.471; 11.471; 11.471
90; 90; 90
1509.4Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py60-Alm40 at T = 100 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001425 CIFAl2 Fe2.4 Mg0.6 O12 Si3I a -3 d11.502; 11.502; 11.502
90; 90; 90
1521.67Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py20-Alm80 at T = 100 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001426 CIFAl2 Fe3 O12 Si3I a -3 d11.512; 11.512; 11.512
90; 90; 90
1525.64Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py0-Alm100 at T = 100 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001427 CIFAl2 Mg3 O12 Si3I a -3 d11.452; 11.452; 11.452
90; 90; 90
1501.91Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py100-Alm0 at T = 293 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001428 CIFAl2 Fe0.6 Mg2.4 O12 Si3I a -3 d11.473; 11.473; 11.473
90; 90; 90
1510.19Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py80-Alm20 at T = 293 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001429 CIFAl2 Fe1.2 Mg1.8 O12 Si3I a -3 d11.485; 11.485; 11.485
90; 90; 90
1514.93Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py60-Alm40 at T = 293 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001430 CIFAl2 Fe2.4 Mg0.6 O12 Si3I a -3 d11.516; 11.516; 11.516
90; 90; 90
1527.23Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py20-Alm80 at T = 293 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001431 CIFAl2 Fe3 O12 Si3I a -3 d11.525; 11.525; 11.525
90; 90; 90
1530.81Armbruster, T.; Geiger, C. A.; Lager, G. A.
Single-crystal X-ray structure study of synthetic pyrope almandine garnets at 100 and 293 K Py0-Alm100 at T = 293 K, Pyrope - Almandine join
American Mineralogist, 1992, 77, 512-521
9001432 CIFAl2 Ni O4F d -3 m :28.05154; 8.05154; 8.05154
90; 90; 90
521.96Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1500 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001433 CIFAl1.999 Ni0.999 O4F d -3 m :28.05221; 8.05221; 8.05221
90; 90; 90
522.09Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1400 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001434 CIFAl2 Ni O4F d -3 m :28.05146; 8.05146; 8.05146
90; 90; 90
521.944Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1200 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001435 CIFAl2.001 Ni0.999 O4F d -3 m :28.05038; 8.05038; 8.05038
90; 90; 90
521.734Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1100 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001436 CIFAl2 Ni O4F d -3 m :28.04899; 8.04899; 8.04899
90; 90; 90
521.464Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1000 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001437 CIFAl2.001 Ni1.001 O4F d -3 m :28.04741; 8.04741; 8.04741
90; 90; 90
521.157Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 900 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001438 CIFAl2 Ni O4F d -3 m :28.04622; 8.04622; 8.04622
90; 90; 90
520.926Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 800 C, initially annealed at 800 C
American Mineralogist, 1992, 77, 522-528
9001439 CIFAl2.001 Ni0.999 O4F d -3 m :28.05263; 8.05263; 8.05263
90; 90; 90
522.172Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1500 C, initially annealed at 1300 C
American Mineralogist, 1992, 77, 522-528
9001440 CIFAl2 Ni O4F d -3 m :28.05199; 8.05199; 8.05199
90; 90; 90
522.047Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1300 C, initially annealed at 1300 C
American Mineralogist, 1992, 77, 522-528
9001441 CIFAl1.999 Ni1.001 O4F d -3 m :28.05145; 8.05145; 8.05145
90; 90; 90
521.942Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1200 C, initially annealed at 1300 C
American Mineralogist, 1992, 77, 522-528
9001442 CIFAl2 Ni O4F d -3 m :28.05059; 8.05059; 8.05059
90; 90; 90
521.775Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1100 C, initially annealed at 1300 C
American Mineralogist, 1992, 77, 522-528
9001443 CIFAl2.001 Ni1.001 O4F d -3 m :28.04897; 8.04897; 8.04897
90; 90; 90
521.46Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 1000 C, initially annealed at 1300 C
American Mineralogist, 1992, 77, 522-528
9001444 CIFAl1.999 Ni1.001 O4F d -3 m :28.04751; 8.04751; 8.04751
90; 90; 90
521.176Roelofsen, J. N.; Peterson, R. C.; Raudsepp, M.
Structural variation in nickel aluminate spinel (NiAl2O4) sample quench temperature = 900 C, initially annealed at 1300 C
American Mineralogist, 1992, 77, 522-528
9001445 CIFH4 Mg10 O18 Si3P n n m5.0894; 13.968; 8.6956
90; 90; 90
618.159Pacalo, R. E. G.; Parise, J. B.
Crystal structure of superhydrous B, a hydrous magnesium silicate synthesized at 1400 C and 20 GPa
American Mineralogist, 1992, 77, 681-684
9001446 CIFFe2 Mg O4F d -3 m :28.3805; 8.3805; 8.3805
90; 90; 90
588.586O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 400 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001447 CIFFe2 Mg O4F d -3 m :28.3806; 8.3806; 8.3806
90; 90; 90
588.607O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 450 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001448 CIFFe2 Mg O4F d -3 m :28.3827; 8.3827; 8.3827
90; 90; 90
589.049O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 500 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001449 CIFFe2 Mg O4F d -3 m :28.3827; 8.3827; 8.3827
90; 90; 90
589.049O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 500 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001450 CIFFe2 Mg O4F d -3 m :28.3845; 8.3845; 8.3845
90; 90; 90
589.429O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 550 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001451 CIFFe2 Mg O4F d -3 m :28.3863; 8.3863; 8.3863
90; 90; 90
589.809O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 600 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001452 CIFFe2 Mg O4F d -3 m :28.3883; 8.3883; 8.3883
90; 90; 90
590.231O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 650 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001453 CIFFe2 Mg O4F d -3 m :28.3883; 8.3883; 8.3883
90; 90; 90
590.231O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 650 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001454 CIFFe2 Mg O4F d -3 m :28.3899; 8.3899; 8.3899
90; 90; 90
590.569O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 700 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001455 CIFFe2 Mg O4F d -3 m :28.3914; 8.3914; 8.3914
90; 90; 90
590.885O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 750 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001456 CIFFe2 Mg0.996 O4F d -3 m :28.3914; 8.3914; 8.3914
90; 90; 90
590.885O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 750 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001457 CIFFe2 Mg O4F d -3 m :28.3934; 8.3934; 8.3934
90; 90; 90
591.308O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 800 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001458 CIFFe2 Mg O4F d -3 m :28.3946; 8.3946; 8.3946
90; 90; 90
591.562O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 850 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001459 CIFFe2 Mg O4F d -3 m :28.3959; 8.3959; 8.3959
90; 90; 90
591.837O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 900 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001460 CIFFe2 Mg0.94 O4F d -3 m :28.3959; 8.3959; 8.3959
90; 90; 90
591.837O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 900 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001461 CIFFe2 Mg O4F d -3 m :28.397; 8.397; 8.397
90; 90; 90
592.069O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 950 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001462 CIFFe2 Mg O4F d -3 m :28.397; 8.397; 8.397
90; 90; 90
592.069O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 950 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001463 CIFFe2 Mg O4F d -3 m :28.3981; 8.3981; 8.3981
90; 90; 90
592.302O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 1000 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001464 CIFFe2 Mg O4F d -3 m :28.3987; 8.3987; 8.3987
90; 90; 90
592.429O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 1050 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001465 CIFFe2 Mg O4F d -3 m :28.3998; 8.3998; 8.3998
90; 90; 90
592.662O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 1100 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001466 CIFFe2 Mg O4F d -3 m :28.4; 8.4; 8.4
90; 90; 90
592.704O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 1150 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001467 CIFFe2 Mg O4F d -3 m :28.3998; 8.3998; 8.3998
90; 90; 90
592.662O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 1200 C using Rietveld method
American Mineralogist, 1992, 77, 725-740
9001468 CIFFe2 Mg O4F d -3 m :28.3805; 8.3805; 8.3805
90; 90; 90
588.586O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 400 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001469 CIFFe2 Mg O4F d -3 m :28.3806; 8.3806; 8.3806
90; 90; 90
588.607O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 450 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001470 CIFFe2 Mg1.001 O4F d -3 m :28.3827; 8.3827; 8.3827
90; 90; 90
589.049O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 500 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001471 CIFFe2 Mg O4F d -3 m :28.3827; 8.3827; 8.3827
90; 90; 90
589.049O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 500 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001472 CIFFe2 Mg O4F d -3 m :28.3845; 8.3845; 8.3845
90; 90; 90
589.429O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 550 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001473 CIFFe2 Mg O4F d -3 m :28.3863; 8.3863; 8.3863
90; 90; 90
589.809O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 600 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001474 CIFFe2 Mg O4F d -3 m :28.3883; 8.3883; 8.3883
90; 90; 90
590.231O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 650 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001476 CIFFe2 Mg O4F d -3 m :28.3899; 8.3899; 8.3899
90; 90; 90
590.569O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 700 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001477 CIFFe2 Mg O4F d -3 m :28.3914; 8.3914; 8.3914
90; 90; 90
590.885O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 750 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001479 CIFFe2 Mg O4F d -3 m :28.3934; 8.3934; 8.3934
90; 90; 90
591.308O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 800 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001481 CIFFe2 Mg O4F d -3 m :28.3959; 8.3959; 8.3959
90; 90; 90
591.837O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 900 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001482 CIFFe2 Mg O4F d -3 m :28.3959; 8.3959; 8.3959
90; 90; 90
591.837O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 900 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001483 CIFFe2 Mg O4F d -3 m :28.397; 8.397; 8.397
90; 90; 90
592.069O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 950 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001485 CIFFe2 Mg O4F d -3 m :28.3981; 8.3981; 8.3981
90; 90; 90
592.302O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 1000 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001486 CIFFe2 Mg O4F d -3 m :28.3987; 8.3987; 8.3987
90; 90; 90
592.429O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 2, anneal T = 1050 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001488 CIFFe2 Mg O4F d -3 m :28.4; 8.4; 8.4
90; 90; 90
592.704O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 1150 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001489 CIFFe2 Mg O4F d -3 m :28.3998; 8.3998; 8.3998
90; 90; 90
592.662O'Neill H St C; Annersten, H.; Virgo, D.
The temperature dependence of the cation distribution in magnesioferrite (MgFe2O4) from powder XRD structural refinements and Mossbauer spectroscopy batch 1, anneal T = 1200 C using the two step method
American Mineralogist, 1992, 77, 725-740
9001490 CIFCu H4 O5 SeP 21 21 216.674; 9.161; 7.398
90; 90; 90
452.318Robinson, P. D.; Sen Gupta, P. K.; Swihart, G. H.; Houk, L.
Crystal structure, H positions, and the Se lone pair of synthetic chalcomenite, Cu(H2O)2[SeO3]
American Mineralogist, 1992, 77, 834-838
9001491 CIFCl3 Hg6 O2I a -3 d16.036; 16.036; 16.036
90; 90; 90
4123.71Mereiter, K.; Zemann, J.; Hewat, A. W.
Eglestonite, [Hg2]3Cl3O2H: Confirmation of the chemical formula by neutron powder diffraction sample SX examined by single-crystal X-ray diffraction
American Mineralogist, 1992, 77, 839-842
9001492 CIFCl3 H Hg6 O2I a -3 d16.036; 16.036; 16.036
90; 90; 90
4123.71Mereiter, K.; Zemann, J.; Hewat, A. W.
Eglestonite, (Hg2)3Cl3O2H: confirmation of the chemical formula by neutron powder diffraction sample SN examined by powder neutron diffraction
American Mineralogist, 1992, 77, 839-842
9001493 CIFBe2 Ca3 H10 O20 P4P 1 21/a 17.3482; 15.0522; 7.0685
90; 96.519; 90
776.768Kampf, A. R.
Beryllophosphate chains in the structures of fransoletite, parafransoletite, and ehrleite and some general comments on beryllophosphate linkages
American Mineralogist, 1992, 77, 848-856
9001494 CIFBe2 Ca3 H10 O20 P4P -17.3275; 7.6959; 7.0606
94.903; 96.82; 101.865
384.414Kampf, A. R.
Beryllophosphate chains in the structures of fransoletite, parafransoletite, and ehrleite and some general comments on beryllophosphate linkages
American Mineralogist, 1992, 77, 848-856
9001495 CIFCu Fe2 S3P c m n6.46; 11.1; 6.22
90; 90; 90
446.011McCammon, C. A.; Zhang, J.; Hazen, R. M.; Finger, L. W.
High-pressure crystal chemistry of cubanite, CuFe2S3 P = 0 GPa, in air
American Mineralogist, 1992, 77, 937-944
9001496 CIFCu Fe2 S3P c m n6.455; 11.102; 6.226
90; 90; 90
446.176McCammon, C. A.; Zhang, J.; Hazen, R. M.; Finger, L. W.
High-pressure crystal chemistry of cubanite, CuFe2S3 P = 0 GPa, in the cell
American Mineralogist, 1992, 77, 937-944
9001497 CIFCu Fe2 S3P c m n6.404; 11.01; 6.158
90; 90; 90
434.189McCammon, C. A.; Zhang, J.; Hazen, R. M.; Finger, L. W.
High-pressure crystal chemistry of cubanite, CuFe2S3 P = 1.7 GPa
American Mineralogist, 1992, 77, 937-944
9001498 CIFCu Fe2 S3P c m n6.344; 10.919; 6.098
90; 90; 90
422.409McCammon, C. A.; Zhang, J.; Hazen, R. M.; Finger, L. W.
High-pressure crystal chemistry of cubanite, CuFe2S3 P = 3.6 GPa
American Mineralogist, 1992, 77, 937-944
9001499 CIFAl5.44 Ca9.5 Cu0.26 F2.7 H2.3 Mg0.8 O36.3 Si9P 4/n n c :215.517; 15.517; 11.781
90; 90; 90
2836.6Ohkawa, M.; Yoshiasa, A.; Takeno, S.
Crystal chemistry of vesuvianite: Site preferences of square-pyramidal coordinated sites sample #1 from Sauland
American Mineralogist, 1992, 77, 945-953
9001500 CIFAl5.24 Ca9.5 F Fe1.26 H4 O38 Si9P 4/n n c :215.606; 15.606; 11.825
90; 90; 90
2879.95Ohkawa, M.; Yoshiasa, A.; Takeno, S.
Crystal chemistry of vesuvianite: Site preferences of square-pyramidal coordinated sites sample #2 from Sanpo
American Mineralogist, 1992, 77, 945-953
9001501 CIFAl5.48 Ca9.5 F3.07 Fe1.02 H1.93 O35.93 Si9P 4/n n c :215.583; 15.583; 11.801
90; 90; 90
2865.64Ohkawa, M.; Yoshiasa, A.; Takeno, S.
Crystal chemistry of vesuvianite: Site preferences of square-pyramidal coordinated sites sample #3 from Jinmu
American Mineralogist, 1992, 77, 945-953
9001502 CIFAl5.88 Ca9.5 Fe0.36 H5 Mg0.26 O39 Si9P 4/n n c :215.546; 15.546; 11.828
90; 90; 90
2858.57Ohkawa, M.; Yoshiasa, A.; Takeno, S.
Crystal chemistry of vesuvianite: Site preferences of square-pyramidal coordinated sites sample #4 from Chichibu
American Mineralogist, 1992, 77, 945-953
9001503 CIFCa0.04 Fe2 H2 Li0.83 Mg2.17 Na2.962 O24 Si8C 1 2/m 19.822; 17.836; 5.286
90; 104.37; 90
897.056Hawthorne, F. C.; Oberti, R.; Ungaretti, L.; Grice, J. D.
Leakeite, NaNa2(Mg2Fe2Li)Si8O22(OH)2, a new alkali amphibole from the Kajlidongri manganese mine, Jhabua district, Madhya Pradesh, India
American Mineralogist, 1992, 77, 1112-1115
9001504 CIFAl4 Ca H5 Mn O20 P3 SiC 1 2/m 117.188; 11.477; 7.322
90; 113.83; 90
1321.25Grice, J. D.; Dunn, P. J.
Attakolite: New data and crystal-structure determination
American Mineralogist, 1992, 77, 1285-1291
9001505 CIFCa6 Cu3 O26 S3P 1 21/c 115.122; 14.358; 22.063
90; 108.68; 90
4538.01Dai, Y. S.; Harlow, G. E.
Description and crystal structure of vonbezingite, a new Ca-Cu-SO4-H2O mineral from the Kalahari manganese field, South Africa
American Mineralogist, 1992, 77, 1292-1300
9001506 CIFCl2 CuC 1 2/m 16.9038; 3.2995; 6.824
90; 122.197; 90
131.54Burns, P. C.; Hawthorne, F. C.
Tolbachite, CuCl2, the first example of Cu2+ octahedrally coordinated by Cl
American Mineralogist, 1993, 78, 187-189
9001507 CIFH2 Mn5 O10 Si2P n m a10.732; 15.672; 4.811
90; 90; 90
809.171Freed, R. L.; Rouse, R. C.; Peacor, D. R.
Ribbeite, a second example of edge-sharing silicate tetrahedra in the leucophoenicite group
American Mineralogist, 1993, 78, 190-194
9001508 CIFAl5 B1.632 Ca1.598 Mg2 Na0.402 O20 Si3.368P -110.01; 10.393; 8.631
106.37; 96.1; 124.38
669.89Van Derveer, D. G.; Swihart, G. H.; Sen Gupta, P. K.; Grew, E. S.
Cation occupancies in serendibite: A crystal structure study Sample from Johnsburg, New York Displacement parameters obtained from ICSD
American Mineralogist, 1993, 78, 195-203
9001509 CIFAl3.48 Ba0.16 Ca0.784 H12.2 K0.28 Mg0.36 Na0.96 O48.2 Si14.52C 1 2/m 117.622; 17.895; 7.399
90; 116.45; 90
2089.01Armbruster, T.
Dehydration mechanism of clinoptilolite and heulandite: Single-crystal X-ray study of Na-poor, Ca-, K-, Mg-rich clinoptilolite at 100 K Sample Natural Data obtained from the ICSD
American Mineralogist, 1993, 78, 260-264
9001510 CIFAl3.48 Ba0.16 Ca0.444 H3.36 K0.84 Na0.56 O39.36 Si14.52C 1 2/m 117.588; 17.572; 7.389
90; 116.77; 90
2038.86Armbruster, T.
Dehydration mechanism of clinoptilolite and heulandite: Single-crystal X-ray study of Na-poor, Ca-, K-, Mg-rich clinoptilolite at 100 K Sample Dehyd 1 Data obtained from the ICSD
American Mineralogist, 1993, 78, 260-264
9001511 CIFAl3.48 Ba0.16 Ca0.22 H2.58 K1.06 Na0.42 O38.58 Si14.52C 1 2/m 117.619; 17.503; 7.371
90; 116.71; 90
2030.55Armbruster, T.
Dehydration mechanism of clinoptilolite and heulandite: Single-crystal X-ray study of Na-poor, Ca-, K-, Mg-rich clinoptilolite at 100 K Sample Dehyd 2 Data obtained from the ICSD
American Mineralogist, 1993, 78, 260-264
9001512 CIFAl3.48 Ba0.16 Ca0.16 H2.42 K1.08 Na0.38 O38.42 Si14.52C 1 2/m 117.61; 17.456; 7.36
90; 116.77; 90
2019.98Armbruster, T.
Dehydration mechanism of clinoptilolite and heulandite: Single-crystal X-ray study of Na-poor, Ca-, K-, Mg-rich clinoptilolite at 100 K Sample Dehyd 3 Data obtained from the ICSD
American Mineralogist, 1993, 78, 260-264
9001513 CIFAl6.078 B3 Ca0.009 Cr0.006 Fe0.612 K0.014 Mg2.274 Mn0.003 Na0.814 O34 Si6 Ti0.03R 3 m :H15.947; 15.947; 7.214
90; 90; 120
1588.78Hawthorne, F. C.; MacDonald, D. J.; Burns, P. C.
Reassignment of cation site occupancies in tourmaline: Al-Mg disorder in the crystal structure of dravite
American Mineralogist, 1993, 78, 265-270
9001514 CIFAl2 H2 O6 SiP b n m4.7238; 8.9473; 8.39
90; 90; 90
354.605Wunder, B.; Rubie, D. C.; Ross, C. R.; Medenbach, O.; Seifert, F.; Schreyer, W.
Synthesis, stability, and properties of Al2SiO4(OH)2: A fully hydrated analogue of topaz
American Mineralogist, 1993, 78, 285-297
9001515 CIFC Ce F O3P -6 2 c7.1175; 7.1175; 9.7619
90; 90; 120
428.272Ni, Y.; Hughes, J. M.; Mariano, A. N.
The atomic arrangement of bastnasite-(Ce), Ce(CO3)F, and structural elements of synchysite-(Ce), rontgenite-(Ce), and parisite-(Ce)
American Mineralogist, 1993, 78, 415-418
9001516 CIFC3 H2 O11 Y2B b 21 m6.078; 9.157; 15.114
90; 90; 90
841.189Miyawaki, R.; Kuriyama, J.; Nakai, I.
The redefinition of tengerite-(Y), Y2(CO3)3.2-3H2O, and its crystal structure
American Mineralogist, 1993, 78, 425-432
9001517 CIFB3 Fe9 H1.998 Na O31 Si6R 3 m :H16.186; 16.186; 7.444
90; 90; 120
1688.95Grice, J. D.; Ercit, T. S.; Hawthorne, F. C.
Povondraite, a redefinition of the tourmaline ferridravite Note: Atomic parameters updated by Grice on 11/20/2001.
American Mineralogist, 1993, 78, 433-436
9001518 CIFAl K O6 Si2I 41/a :212.988; 12.988; 13.8
90; 90; 90
2327.9Dove, M. T.; Cool, T.; Palmer, D. C.; Putnis, A.; Salje, E. K. H.; Winkler, B.
On the role of Al-Si ordering in the cubic-tetragonal phase transition of leucite Sample is Disordered
American Mineralogist, 1993, 78, 486-492
9001519 CIFAl K O6 Si2I 41/a :212.931; 12.931; 13.812
90; 90; 90
2309.51Dove, M. T.; Cool, T.; Palmer, D. C.; Putnis, A.; Salje, E. K. H.; Winkler, B.
On the role of Al-Si ordering in the cubic-tetragonal phase transition of leucite Sample is Order model 1
American Mineralogist, 1993, 78, 486-492
9001520 CIFAl K O6 Si2I 41/a :213.005; 13.005; 13.765
90; 90; 90
2328.07Dove, M. T.; Cool, T.; Palmer, D. C.; Putnis, A.; Salje, E. K. H.; Winkler, B.
On the role of Al-Si ordering in the cubic-tetragonal phase transition of leucite Sample is Order model 2
American Mineralogist, 1993, 78, 486-492
9001521 CIFAl K O8 Si3I 4/m9.315; 9.315; 2.723
90; 90; 90
236.273Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T.
High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 0.00 GPa
American Mineralogist, 1993, 78, 493-499
9001522 CIFAl K O8 Si3I 4/m9.285; 9.285; 2.717
90; 90; 90
234.236Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T.
High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 1.64 GPa
American Mineralogist, 1993, 78, 493-499
9001523 CIFAl K O8 Si3I 4/m9.261; 9.261; 2.712
90; 90; 90
232.598Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T.
High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 2.95 GPa
American Mineralogist, 1993, 78, 493-499
9001524 CIFAl K O8 Si3I 4/m9.247; 9.247; 2.71
90; 90; 90
231.724Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T.
High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 3.60 GPa
American Mineralogist, 1993, 78, 493-499
9001525 CIFAl K O8 Si3I 4/m9.237; 9.237; 2.706
90; 90; 90
230.882Zhang, J.; Ko, J.; Hazen, R. M.; Prewitt, C. T.
High-pressure crystal chemistry of KAlSi3O8 hollandite Pressure = 4.47 GPa
American Mineralogist, 1993, 78, 493-499
9001526 CIFAl2 Mg3 O12 Si3I a -3 d11.4566; 11.4566; 11.4566
90; 90; 90
1503.72Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW12
American Mineralogist, 1993, 78, 583-593
9001527 CIFAl2 Ca0.588 Mg2.412 O12 Si3I a -3 d11.452; 11.452; 11.452
90; 90; 90
1501.91Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW13
American Mineralogist, 1993, 78, 583-593
9001528 CIFAl2 Ca0.774 Mg2.226 O12 Si3I a -3 d11.567; 11.567; 11.567
90; 90; 90
1547.61Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW28
American Mineralogist, 1993, 78, 583-593
9001529 CIFAl2 Ca2.106 Mg0.888 O12 Si3I a -3 d11.7445; 11.7445; 11.7445
90; 90; 90
1619.96Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW22
American Mineralogist, 1993, 78, 583-593
9001530 CIFAl2 Ca2.391 Mg0.609 O12 Si3I a -3 d11.7817; 11.7817; 11.7817
90; 90; 90
1635.4Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW3
American Mineralogist, 1993, 78, 583-593
9001531 CIFAl2 Ca2.547 Mg0.453 O12 Si3I a -3 d11.8063; 11.8063; 11.8063
90; 90; 90
1645.67Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW15
American Mineralogist, 1993, 78, 583-593
9001532 CIFAl2 Ca3 O12 Si3I a -3 d11.8515; 11.8515; 11.8515
90; 90; 90
1664.64Ganguly, J.; Cheng, W.; O'Neill H St C
Syntheses, volume, and structural changes of garnets in the pyrope-grossular join: Implications for stability and mixing properties Sample JW11
American Mineralogist, 1993, 78, 583-593
9001533 CIFK2.28 Mg1.14 O8 Si2.86I 4 m m8.957; 8.957; 5.281
90; 90; 90
423.683Dollase, W. A.; Ross, C. R.
Crystal structures of the body-centered tetragonal tectosilicates: K1.14Mg0.57Si1.43O4, K1.10Zn0.55Si1.45O4, and K1.11Fe1.11Si0.89O4 Sample: Mg-rich phase
American Mineralogist, 1993, 78, 627-632
9001534 CIFK2.2 O8 Si2.9 Zn1.1I 4 m m8.939; 8.939; 5.246
90; 90; 90
419.185Dollase, W. A.; Ross, C. R.
Crystal structures of the body-centered tetragonal tectosilicates: K1.14Mg0.57Si1.43O4, K1.10Zn0.55Si1.45O4, and K1.11Fe1.11Si0.89O4 Sample: Zn-rich phase
American Mineralogist, 1993, 78, 627-632
9001535 CIFFe2.22 K2.22 O8 Si1.78I 4 m m9.102; 9.102; 5.341
90; 90; 90
442.483Dollase, W. A.; Ross, C. R.
Crystal structures of the body-centered tetragonal tectosilicates: K1.14Mg0.57Si1.43O4, K1.10Zn0.55Si1.45O4, and K1.11Fe1.11Si0.89O4 Sample: Fe-rich phase
American Mineralogist, 1993, 78, 627-632
9001536 CIFCa H2 K Mg5 Na O24 Si8C 1 2/m 110.0547; 17.997; 5.2746
90; 104.832; 90
922.66Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KNi0 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001537 CIFCa H2 K Mg3.86 Na Ni1.14 O24 Si8C 1 2/m 110.0536; 17.982; 5.2702
90; 104.879; 90
920.821Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KNi20 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001538 CIFCa H2 K Mg2.75 Na Ni2.25 O24 Si8C 1 2/m 110.0492; 17.975; 5.2661
90; 104.904; 90
919.237Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KNi40 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001539 CIFCa H2 K Mg1.78 Na Ni3.22 O24 Si8C 1 2/m 110.0436; 17.962; 5.2633
90; 104.936; 90
917.436Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KNi60 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001540 CIFCa H2 K Mg0.93 Na Ni4.07 O24 Si8C 1 2/m 110.0382; 17.954; 5.261
90; 104.954; 90
916.057Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KNi80 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001541 CIFCa H2 K Na Ni5 O24 Si8C 1 2/m 110.0297; 17.942; 5.2576
90; 104.982; 90
913.959Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KNi100 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001542 CIFCa Co1.01 H2 K Mg3.99 Na O24 Si8C 1 2/m 110.0711; 18.015; 5.276
90; 104.836; 90
925.318Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KCo20 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001543 CIFCa Co1.98 H2 K Mg3.02 Na O24 Si8C 1 2/m 110.0817; 18.021; 5.2753
90; 104.832; 90
926.494Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KCo40 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001544 CIFCa Co2.92 H2 K Mg2.08 Na O24 Si8C 1 2/m 110.0923; 18.032; 5.2742
90; 104.829; 90
927.854Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KCo60 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001545 CIFCa Co3.82 H2 K Mg1.18 Na O24 Si8C 1 2/m 110.1065; 18.052; 5.2743
90; 104.844; 90
930.143Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KCo80 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001546 CIFCa Co5 H2 K Na O24 Si8C 1 2/m 110.1166; 18.066; 5.2752
90; 104.846; 90
931.945Della Ventura, G.; Robert, J.-L.; Raudsepp, M.; Hawthorne, F. C.
Site occupancies in monoclinic amphiboles: Rietveld structure refinement of synthetic magnesium cobalt potassium richterite Sample: KCo100 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 633-640
9001547 CIFAl Cl Cu6 H15 O19 SP 3 1 c8.254; 8.254; 14.354
90; 90; 120
846.901Hawthorne, F. C.; Kimata, M.; Eby, R. K.
The crystal structure of spangolite, a complex copper sulfate sheet mineral
American Mineralogist, 1993, 78, 649-652
9001548 CIFAl2.3 Ca1.94 F0.26 Fe2.76 H2.12 K1.9 Mg1.8 Na1.56 O23.74 Si6.08 Ti0.06C 1 2/m 19.895; 18.119; 5.332
90; 105.17; 90
922.649Oberti R; Ungaretti L; Cannillo E; Hawthorne F C
The mechanism of Cl incorporation in amphibole Sample: Cl(0) Locality: Nuptse Glacier moraine, Everest Massif, Nepal
American Mineralogist, 1993, 78, 746-752
9001549 CIFAl1.88 Ca1.74 Cl0.56 F0.26 Fe2.94 H0.6 K1.8 Mg1.76 Na2.5 O25.16 Si6.44 Ti0.04C 1 2/m 19.884; 18.143; 5.332
90; 104.86; 90
924.184Oberti R; Ungaretti L; Cannillo E; Hawthorne F C
The mechanism of Cl incorporation in amphibole Sample: Cl(1) Locality: Sesia-Lanzo marble, Western Alps, Italy
American Mineralogist, 1993, 78, 746-752
9001550 CIFAl2.18 Ca1.86 Cl0.98 F0.14 Fe3.58 H2 K2.7 Mg1.06 Na1.94 O24.88 Si6.16 Ti0.02C 1 2/m 19.922; 18.219; 5.36
90; 104.81; 90
936.733Oberti R; Ungaretti L; Cannillo E; Hawthorne F C
The mechanism of Cl incorporation in amphibole Sample: Cl(2) Locality: Sesia-Lanzo marble, Western Alps, Italy
American Mineralogist, 1993, 78, 746-752
9001551 CIFAl2 Be2.664 Cs0.083 H1.476 Li0.315 Na0.24 O18.72 Si6P 6/m c c9.197; 9.197; 9.202
90; 90; 120
674.07Artioli, G.; Rinaldi, R.; Stahl, K.; Zanazzi, P. F.
Structure refinements of beryl by single-crystal neutron and X-ray diffraction Sample no. 1, morganite, probed with neutrons, T = 30 K
American Mineralogist, 1993, 78, 762-768
9001552 CIFAl2 Be2.682 Cs0.083 H1.26 Li0.318 Na0.24 O18.61 Si6P 6/m c c9.208; 9.208; 9.197
90; 90; 120
675.317Artioli, G.; Rinaldi, R.; Stahl, K.; Zanazzi, P. F.
Structure refinements of beryl by single-crystal neutron and X-ray diffraction Sample no. 1, morganite, probed with neutrons, T = 295 K
American Mineralogist, 1993, 78, 762-768
9001553 CIFAl2 Be2.682 Cs0.096 H0.48 Li0.318 O18.16 Si6P 6/m c c9.208; 9.208; 9.197
90; 90; 120
675.317Artioli, G.; Rinaldi, R.; Stahl, K.; Zanazzi, P. F.
Structure refinements of beryl by single-crystal neutron and X-ray diffraction Sample no. 1, morganite, probed with X-rays, T = 295 K
American Mineralogist, 1993, 78, 762-768
9001554 CIFAl1.97 Be3 Fe0.03 H0.26 Na0.016 O18.24 Si6P 6/m c c9.218; 9.218; 9.197
90; 90; 120
676.784Artioli, G.; Rinaldi, R.; Stahl, K.; Zanazzi, P. F.
Structure refinements of beryl by single-crystal neutron and X-ray diffraction Sample no. 2, aquamarine, probed with neutrons, T = 295 K
American Mineralogist, 1993, 78, 762-768
9001555 CIFAl1.97 Be3 Fe0.03 H0.48 O18.48 Si6P 6/m c c9.218; 9.218; 9.197
90; 90; 120
676.784Artioli, G.; Rinaldi, R.; Stahl, K.; Zanazzi, P. F.
Structure refinements of beryl by single-crystal neutron and X-ray diffraction Sample no. 2, aquamarine, probed with X-rays, T = 295 K
American Mineralogist, 1993, 78, 762-768
9001556 CIFFe4 H14 O13I m m m7.544; 7.56; 7.558
90; 90; 90
431.053Birch, W. D.; Pring, A.; Reller, A.; Schmalle, H. W.
Bernalite, Fe(OH)3, a new mineral from Broken Hill, New South Wales: Description and structure
American Mineralogist, 1993, 78, 827-834
9001557 CIFO8 Pb Te2 UP 1 21/c 17.813; 7.061; 13.775
90; 93.71; 90
758.341Swihart, G. H.; Sen Gupta, P. K.; Schlemper, E. O.; Back, M. E.; Gaines, R. V.
The crystal structure of moctezumite [PbUO2](TeO3)2
American Mineralogist, 1993, 78, 835-839
9001558 CIFCa H2 K Mg5 Na O24 Si7.4 Ti0.6C 1 2/m 110.0746; 18.0337; 5.2979
90; 104.906; 90
930.145Della Ventura, G.; Robert, J.-L.; Beny, J.-M.; Raudsepp, M.; Hawthorne, F. C.
The OH-F substitution in Ti-rich potassium richterite: Rietveld structure refinement and FTIR and micro-Raman spectroscopic studies of synthetic amphiboles in the system K2O-Na2O-CaO-MgO-SiO2-TiO2-H2O-HF Sample Rich58 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 980-987
9001559 CIFCa F0.4 H1.6 K Mg5 Na O23.6 Si7.44 Ti0.56C 1 2/m 110.0613; 18.0314; 5.2963
90; 104.896; 90
928.561Della Ventura, G.; Robert, J.-L.; Beny, J.-M.; Raudsepp, M.; Hawthorne, F. C.
The OH-F substitution in Ti-rich potassium richterite: Rietveld structure refinement and FTIR and micro-Raman spectroscopic studies of synthetic amphiboles in the system K2O-Na2O-CaO-MgO-SiO2-TiO2-H2O-HF Sample Rich59 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 980-987
9001560 CIFCa F0.8 H1.2 K Mg5 Na O23.2 Si7.52 Ti0.48C 1 2/m 110.0427; 18.0254; 5.2922
90; 104.875; 90
925.909Della Ventura, G.; Robert, J.-L.; Beny, J.-M.; Raudsepp, M.; Hawthorne, F. C.
The OH-F substitution in Ti-rich potassium richterite: Rietveld structure refinement and FTIR and micro-Raman spectroscopic studies of synthetic amphiboles in the system K2O-Na2O-CaO-MgO-SiO2-TiO2-H2O-HF Sample Rich60 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 980-987
9001561 CIFCa F1.2 H0.8 K Mg5 Na O22.8 Si7.6 Ti0.4C 1 2/m 110.0262; 18.0194; 5.2871
90; 104.874; 90
923.194Della Ventura, G.; Robert, J.-L.; Beny, J.-M.; Raudsepp, M.; Hawthorne, F. C.
The OH-F substitution in Ti-rich potassium richterite: Rietveld structure refinement and FTIR and micro-Raman spectroscopic studies of synthetic amphiboles in the system K2O-Na2O-CaO-MgO-SiO2-TiO2-H2O-HF Sample Rich61 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 980-987
9001562 CIFCa F1.6 H0.4 K Mg5 Na O22.4 Si7.76 Ti0.24C 1 2/m 110.0166; 18.0189; 5.2871
90; 104.908; 90
922.139Della Ventura, G.; Robert, J.-L.; Beny, J.-M.; Raudsepp, M.; Hawthorne, F. C.
The OH-F substitution in Ti-rich potassium richterite: Rietveld structure refinement and FTIR and micro-Raman spectroscopic studies of synthetic amphiboles in the system K2O-Na2O-CaO-MgO-SiO2-TiO2-H2O-HF Sample Rich62 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 980-987
9001563 CIFCa F2 K Mg5 Na O22 Si7.84 Ti0.16C 1 2/m 110.0149; 18.0099; 5.2862
90; 104.954; 90
921.167Della Ventura, G.; Robert, J.-L.; Beny, J.-M.; Raudsepp, M.; Hawthorne, F. C.
The OH-F substitution in Ti-rich potassium richterite: Rietveld structure refinement and FTIR and micro-Raman spectroscopic studies of synthetic amphiboles in the system K2O-Na2O-CaO-MgO-SiO2-TiO2-H2O-HF Sample Rich63 Atomic parameters from ICSD
American Mineralogist, 1993, 78, 980-987
9001564 CIFCa1.67 H2 Mn0.33 O5 SiP b c a9.398; 9.139; 10.535
90; 90; 90
904.833Dai, Y. S.; Harlow, G. E.; McGhie, A. R.
Poldervaartite, Ca(Ca0.5Mn0.5)(SiO3OH)(OH), a new acid nesosilicate from the Kalahari manganese field, South Africa: Crystal structure and description
American Mineralogist, 1993, 78, 1082-1087
9001565 CIFBa Mn2 O14 Si4 Sr2C 1 2 114.6; 7.759; 5.142
90; 93.25; 90
581.556Armbruster, T.; Oberhansli, R.; Kunz, M.
Taikanite, BaSr2Mn2O2[Si4O12], from the Wessels mine, South Africa: A chain silicate related to synthetic Ca3Mn2O2[Si4O12]
American Mineralogist, 1993, 78, 1088-1095
9001566 CIFAs S4 Tl3P n m a8.894; 10.855; 9.079
90; 90; 90
876.526Wilson, J. R.; Sen Gupta, P. K.; Robinson, P. D.; Criddle, A. J.
Fangite, Tl3AsS4, a new thallium arsenic sulfosalt from the Mercur Au deposit, Utah, and revised optical data for gillulyite
American Mineralogist, 1993, 78, 1096-1103
9001567 CIFAl2.25 O4.871 Si0.75P b a m7.54336; 7.69176; 2.88402
90; 90; 90
167.336Balzar, D.; Ledbetter, H.
Crystal structure and compressibility of 3:2 mullite
American Mineralogist, 1993, 78, 1192-1196
9001568 CIFAl1.7 Fe0.33 H8 Mg4.95 O18 Si3.02C -15.3437; 9.256; 14.422
90.25; 97.28; 89.99
707.574Nelson, D. O.; Guggenheim, S.
Inferred limitations to the oxidation of Fe in chlorite: a high-temperature single-crystal X-ray study T = 550 C
American Mineralogist, 1993, 78, 1197-1207
9001569 CIFAl3.15 H2 Mg1.85 Na0.85 O12 Si2C 1 2/m 15.225; 9.05; 9.791
90; 100.27; 90
455.562Oberti, R.; Ungaretti, L.; Tlili, A.; Smith, D. C.; Robert, J.-L.
The crystal structure of preiswerkite Sample: KP9
American Mineralogist, 1993, 78, 1290-1298
9001570 CIFAl3.15 H2 Mg1.85 Na0.85 O12 Si2C 1 2/m 15.228; 9.049; 9.819
90; 100.41; 90
456.873Oberti, R.; Ungaretti, L.; Tlili, A.; Smith, D. C.; Robert, J.-L.
The crystal structure of preiswerkite Sample: KP17
American Mineralogist, 1993, 78, 1290-1298
9001571 CIFAl6.891 B3 Fe1.599 Li0.219 Mg0.051 Mn0.24 Na0.25 O31 Si6R 3 m :H15.967; 15.967; 7.126
90; 90; 120
1573.34MacDonald, D. J.; Hawthorne, F. C.; Grice, J. D.
Foitite, _[Fe2(Al,Fe)]Al6Si6O18(BO3)3(OH)4, a new alkali-deficient tourmaline: Description and crystal structure
American Mineralogist, 1993, 78, 1299-1303
9001572 CIFFe16.2 Mg0.98 O27 Pb1.818P 63/m m c5.952; 5.952; 33.379
90; 90; 120
1024.07Holtstam, D.; Norrestam, R.
Lindqvistite, Pb2MeFe16O27, a novel hexagonal ferrite mineral from Jakobsberg, Filipstad, Sweden
American Mineralogist, 1993, 78, 1304-1312
9001573 CIFMg2 O4 SiF d -3 m :28.0709; 8.0709; 8.0709
90; 90; 90
525.734Hazen, R. M.; Downs, R. T.; Finger, L. W.
Crystal chemistry of ferromagnesian silicate spinels: Evidence for Mg-Si disorder Sample: SUNY 859
American Mineralogist, 1993, 78, 1320-1323
9001574 CIFFe1.234 Mg0.766 O4 SiF d -3 m :28.1763; 8.1763; 8.1763
90; 90; 90
546.601Hazen, R. M.; Downs, R. T.; Finger, L. W.
Crystal chemistry of ferromagnesian silicate spinels: Evidence for Mg-Si disorder Sample: SUNY 1013
American Mineralogist, 1993, 78, 1320-1323
9001575 CIFFe1.58 Mg0.42 O4 SiF d -3 m :28.203; 8.203; 8.203
90; 90; 90
551.973Hazen, R. M.; Downs, R. T.; Finger, L. W.
Crystal chemistry of ferromagnesian silicate spinels: Evidence for Mg-Si disorder Sample: SUNY 1097
American Mineralogist, 1993, 78, 1320-1323
9001576 CIFFe1.564 Mg0.436 O4 SiF d -3 m :28.2059; 8.2059; 8.2059
90; 90; 90
552.559Hazen, R. M.; Downs, R. T.; Finger, L. W.
Crystal chemistry of ferromagnesian silicate spinels: Evidence for Mg-Si disorder Sample: SUNY 1102
American Mineralogist, 1993, 78, 1320-1323
9001577 CIFFe0.44 Mg0.56 O3 SiP b c a18.312; 8.917; 5.217
90; 90; 90
851.874Hazen, R. M.; Finger, L. W.; Ko, J.
Effects of pressure on Mg-Fe ordering in orthopyroxene synthesized at 11.3 GPa and 1600 C
American Mineralogist, 1993, 78, 1336-1339
9001578 CIFO2 SiP 41 21 24.9717; 4.9717; 6.9223
90; 90; 90
171.104Downs, R. T.; Palmer, D. C.
The pressure behavior of alpha cristobalite P = room pressure
American Mineralogist, 1994, 79, 9-14
9001579 CIFO2 SiP 41 21 24.9501; 4.9501; 6.876
90; 90; 90
168.486Downs, R. T.; Palmer, D. C.
The pressure behavior of alpha cristobalite P = 0.19 GPa
American Mineralogist, 1994, 79, 9-14
9001580 CIFO2 SiP 41 21 24.9028; 4.9028; 6.7782
90; 90; 90
162.931Downs, R. T.; Palmer, D. C.
The pressure behavior of alpha cristobalite P = 0.73 GPa
American Mineralogist, 1994, 79, 9-14
9001581 CIFO2 SiP 41 21 24.8757; 4.8757; 6.7163
90; 90; 90
159.663Downs, R. T.; Palmer, D. C.
The pressure behavior of alpha cristobalite P = 1.05 GPa
American Mineralogist, 1994, 79, 9-14
9001582 CIFAl1.207 Fe0.4 K1.906 Mg0.512 Mn0.007 Na0.034 O12 Si2.808 Ti0.067C 1 2/m 15.335; 9.244; 10.206
90; 100.08; 90
495.557Bigi, S.; Brigatti, M. F.
Crystal chemistry and microstructures of plutonic biotite Sample 1M from Valle del Cervo syenitic complex
American Mineralogist, 1994, 79, 63-72
9001583 CIFAl1.216 Fe1.215 K0.946 Mg1.545 Mn0.018 Na0.032 O12 Si2.784 Ti0.225C 1 2/c 15.339; 9.249; 20.196
90; 95.06; 90
993.4Bigi, S.; Brigatti, M. F.
Crystal chemistry and microstructures of plutonic biotite Sample 2M1 from Valle del Cervo syenitic complex
American Mineralogist, 1994, 79, 63-72
9001584 CIFMn6.683 O23 Si6P 1 21/c 114.838; 17.584; 14.7
90; 95.54; 90
3817.48Heinrich, A. R.; Eggleton, R. A.; Guggenheim, S.
Structure and polytypism of bementite, a modulated layer silicate
American Mineralogist, 1994, 79, 91-106
9001585 CIFAl5.808 H46 O59.5 Pb3.746 Si18.192C m 2 m19.434; 19.702; 7.538
90; 90; 90
2886.22Rouse, R. C.; Peacor, D. R.
Maricopaite, an unusual lead calcium zeolite with an interrupted mordenite-like framework and intrachannel Pb4 tetrahedral clusters
American Mineralogist, 1994, 79, 175-184
9001586 CIFD1.998 Mg O2P -3 m 13.1382; 3.1382; 4.713
90; 90; 120
40.197Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B.
Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 0.4 GPa
American Mineralogist, 1994, 79, 193-196
9001587 CIFD1.998 Mg O2P -3 m 13.1167; 3.1167; 4.63
90; 90; 120
38.949Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B.
Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 1.9 GPa
American Mineralogist, 1994, 79, 193-196
9001588 CIFD1.998 Mg O2P -3 m 13.0728; 3.0728; 4.496
90; 90; 120
36.764Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B.
Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 5.4 GPa
American Mineralogist, 1994, 79, 193-196
9001589 CIFD1.998 Mg O2P -3 m 13.0365; 3.0365; 4.403
90; 90; 120
35.158Parise, J. B.; Leinenweber, K.; Weidner, D. J.; Tan, K.; Von Dreele, R. B.
Pressure-induced H bonding: Neutron diffraction study of brucite, Mg(OD)2, to 9.3 GPa P = 9.3 GPa
American Mineralogist, 1994, 79, 193-196
9001590 CIFAl0.65 H2 Li0.33 Mn O4R -3 m :H2.9247; 2.9247; 28.169
90; 90; 120
208.672Post, J. E.; Appleman, D. E.
Crystal structure refinement of lithiophorite Note: U(1,2) for Mn/Al/Li/O2 have been altered to match symmetry constraints.
American Mineralogist, 1994, 79, 370-374
9001591 CIFAl2 F2 O4 SiP b n m4.652; 8.801; 8.404
90; 90; 90
344.079Northrup, P. A.; Leinenweber, K.; Parise, J. B.
The location of H in the high-pressure synthetic Al2SiO4(OH)2 topaz analogue Sample fluor-topaz from a Mexican rhyolite
American Mineralogist, 1994, 79, 401-404
9001592 CIFAl2 H2 O6 SiP b n m4.7203; 8.9207; 8.4189
90; 90; 90
354.506Northrup, P. A.; Leinenweber, K.; Parise, J. B.
The location of H in the high-pressure synthetic Al2SiO4(OH)2 topaz analogue Sample OH synthetic
American Mineralogist, 1994, 79, 401-404
9001593 CIFMg O3 SiP b c a18.233; 8.8191; 5.1802
90; 90; 90
832.969Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 0 GPa
American Mineralogist, 1994, 79, 405-410
9001594 CIFMg O3 SiP b c a18.186; 8.782; 5.161
90; 90; 90
824.26Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 1.04 GPa
American Mineralogist, 1994, 79, 405-410
9001595 CIFMg O3 SiP b c a18.148; 8.756; 5.1493
90; 90; 90
818.244Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 1.95 GPa
American Mineralogist, 1994, 79, 405-410
9001596 CIFMg O3 SiP b c a18.1045; 8.7181; 5.1327
90; 90; 90
810.129Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 3.27 GPa
American Mineralogist, 1994, 79, 405-410
9001597 CIFMg O3 SiP b c a18.071; 8.6929; 5.1214
90; 90; 90
804.518Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 4.09 GPa
American Mineralogist, 1994, 79, 405-410
9001598 CIFMg O3 SiP b c a18.0455; 8.6708; 5.1119
90; 90; 90
799.853Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 4.95 GPa
American Mineralogist, 1994, 79, 405-410
9001599 CIFMg O3 SiP b c a18.011; 8.652; 5.102
90; 90; 90
795.051Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 5.85 GPa
American Mineralogist, 1994, 79, 405-410
9001600 CIFMg O3 SiP b c a17.983; 8.6241; 5.0902
90; 90; 90
789.425Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 7.00 GPa
American Mineralogist, 1994, 79, 405-410
9001601 CIFMg O3 SiP b c a17.95; 8.604; 5.08
90; 90; 90
784.564Hugh-Jones D A; Angel, R. J.
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa Sample: P = 8.10 GPa
American Mineralogist, 1994, 79, 405-410
9001602 CIFAl7.488 K7.512 Mn49 O218 Si64.512C 1 2/m 139.1; 22.84; 17.95
90; 135.6; 90
11215.7Eggleton, R. A.; Guggenheim, S.
The use of electron optical methods to determine the crystal structure of a modulated phyllosilicate: Parsettensite
American Mineralogist, 1994, 79, 426-437
9001603 CIFAl0.14 Ca0.1 F0.21 Fe0.96 H0.97 K0.15 Li0.67 Mg2.3 Mn0.52 Na2.7 O23.79 Si8 Ti0.41C 1 2/m 19.748; 17.842; 5.287
90; 104.12; 90
891.753Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Cannillo, E.
The mechanism of Li incorporation in amphiboles Sample: A1
American Mineralogist, 1994, 79, 443-451
9001604 CIFAl0.26 Ca0.04 F0.48 Fe1.42 H1.28 K0.2 Li0.74 Mg2.24 Mn0.42 Na2.71 O23.5 Si7.92C 1 2/m 19.79; 17.848; 5.287
90; 104.1; 90
895.975Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Cannillo, E.
The mechanism of Li incorporation in amphiboles Sample: A2
American Mineralogist, 1994, 79, 443-451
9001605 CIFAl0.26 Ca0.04 F0.48 Fe1.42 H1.28 K0.2 Li0.74 Mg2.24 Mn0.42 Na2.71 O23.5 Si7.92C 1 2/m 19.822; 17.836; 5.286
90; 104.37; 90
897.056Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Cannillo, E.
The mechanism of Li incorporation in amphiboles Sample: A3 Note: Site occupancies are set to be the same as ones in sample A2
American Mineralogist, 1994, 79, 443-451
9001606 CIFAl0.16 Ca0.1 F0.42 Fe1.174 H2 K0.2 Li0.24 Mg3.34 Mn0.126 Na2.45 O23.58 Si7.92 Ti0.04C 1 2/m 19.771; 17.887; 5.289
90; 103.82; 90
897.619Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Cannillo, E.
The mechanism of Li incorporation in amphiboles Sample: A4 Note: Site occupancies are set to be the same as ones in sample A5
American Mineralogist, 1994, 79, 443-451
9001607 CIFAl0.16 Ca0.1 F0.42 Fe1.174 H2 K0.2 Li0.24 Mg3.34 Mn0.126 Na2.45 O23.58 Si7.92 Ti0.04C 1 2/m 19.779; 17.888; 5.287
90; 103.85; 90
897.949Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Cannillo, E.
The mechanism of Li incorporation in amphiboles Sample: A5
American Mineralogist, 1994, 79, 443-451
9001608 CIFAl1.66 Ba2 F2 O10 P2 Ti0.34P 1 21/n 16.977; 12.564; 5.223
90; 102.15; 90
447.587Cooper, M. A.; Hawthorne, F. C.
The crystal structure of curetonite, a complex heteropolyhedral sheet mineral Data has been corrected according to the ICSD
American Mineralogist, 1994, 79, 545-549
9001609 CIFCl4 O17 Pb14 V2C 1 2/c 112.682; 22.566; 11.279
90; 118.11; 90
2847.1Cooper, M. A.; Hawthorne, F. C.
The crystal structure of kombatite, Pb14(VO4)2O9Cl4, a complex heteropolyhedral sheet mineral
American Mineralogist, 1994, 79, 550-554
9001610 CIFB5 Ca H8 Na O13P 1 21/c 16.506; 13.28; 11.462
90; 92.97; 90
988.983Bermanec, V.; Armbruster, T.; Tibljas, D.; Sturman, D.; Kniewald, G.
Tuzlaite, NaCa[B5O8(OH)2].3H2O, a new mineral with a pentaborate sheet structure from the Tuzla salt mine, Bosnia and Hercegovina
American Mineralogist, 1994, 79, 562-569
9001611 CIFCa0.489 Mg3.511 O12 Si4I 41/a11.5816; 11.5816; 11.5288
90; 90; 90
1546.4Hazen, R. M.; Downs, R. T.; Finger, L. W.; Conrad, P. G.; Gasparik, T.
Crystal chemistry of Ca-bearing majorite
American Mineralogist, 1994, 79, 581-584
9001612 CIFF3 Mg NaP b n m5.3603; 5.4884; 7.666
90; 90; 90
225.53Zhao, Y. S.; Parise, J. B.; Wang, Y.; Kusaba, K.; Vaughan, M. T.; Weidner, D. J.; Kikegawa, T.; Chen, J.; Shimomura, O.
High-pressure crystal chemistry of neighborite, NaMgF3: an angle-dispersive diffraction study using monochromatic synchrotron X-radiation P = room pressure
American Mineralogist, 1994, 79, 615-621
9001613 CIFF3 Mg NaP b n m5.2386; 5.3796; 7.5052
90; 90; 90
211.508Zhao, Y. S.; Parise, J. B.; Wang, Y.; Kusaba, K.; Vaughan, M. T.; Weidner, D. J.; Kikegawa, T.; Chen, J.; Shimomura, O.
High-pressure crystal chemistry of neighborite, NaMgF3: an angle-dispersive diffraction study using monochromatic synchrotron X-radiation P = 4.9 GPa
American Mineralogist, 1994, 79, 615-621
9001614 CIFF3 Mg NaP b n m5.3609; 5.4828; 7.667
90; 90; 90
225.354Zhao, Y. S.; Parise, J. B.; Wang, Y.; Kusaba, K.; Vaughan, M. T.; Weidner, D. J.; Kikegawa, T.; Chen, J.; Shimomura, O.
High-pressure crystal chemistry of neighborite, NaMgF3: an angle-dispersive diffraction study using monochromatic synchrotron X-radiation P = room pressure following decompression
American Mineralogist, 1994, 79, 615-621
9001615 CIFCa0.774 Fe0.11 Mg0.901 Na0.226 O6 Si2C 1 2/c 19.689; 8.824; 5.28
90; 107.6; 90
430.287Bertolo, S.; Nimis, P.; Dal Negro, A.
Low-Ca augite from experimental alkali basalt at 18 kbar: Structural variation near the miscibility gap Atomic parameters from ICSD
American Mineralogist, 1994, 79, 668-674
9001616 CIFAl4.446 Ca1.848 H12.38 K0.06 Na0.65 O48.38 Si13.554C 1 2/m 117.671; 17.875; 7.412
90; 116.39; 90
2097.24Gunter, M. E.; Armbruster, T.; Kohler, T.; Knowles, C. R.
Crystal structure and optical properties of Na- and Pb-exchanged heulandite-group zeolites Sample: nonexchanged Atomic parameters from ICSD
American Mineralogist, 1994, 79, 675-682
9001617 CIFAl4.446 H10.96 Na3.6 O48.96 Si13.554C 1 2/m 117.767; 17.977; 7.422
90; 116.14; 90
2128.11Gunter, M. E.; Armbruster, T.; Kohler, T.; Knowles, C. R.
Crystal structure and optical properties of Na- and Pb-exchanged heulandite-group zeolites Sample: Na-exchanged Atomic parameters from ICSD
American Mineralogist, 1994, 79, 675-682
9001618 CIFAl4.446 O44.08 Pb2 Si13.554C 1 m 117.767; 17.917; 7.432
90; 116.33; 90
2120.39Gunter, M. E.; Armbruster, T.; Kohler, T.; Knowles, C. R.
Crystal structure and optical properties of Na- and Pb-exchanged heulandite-group zeolites Sample: Pb-exchanged Atomic parameters from ICSD
American Mineralogist, 1994, 79, 675-682
9001619 CIFAs1.92 Cu13 S16 Sn1.08 VP -4 3 n10.621; 10.621; 10.621
90; 90; 90
1198.11Spry, P. G.; Merlino, S.; Wang, S.; Zhang, X.; Buseck, P. R.
New occurrences and refined crystal chemistry of colusite, with comparisons to arsenosulvanite Sample: Sn-rich, crystal 2
American Mineralogist, 1994, 79, 750-762
9001620 CIFAs3 Cu11.94 S16 VP -4 3 n10.538; 10.538; 10.538
90; 90; 90
1170.24Spry, P. G.; Merlino, S.; Wang, S.; Zhang, X.; Buseck, P. R.
New occurrences and refined crystal chemistry of colusite, with comparisons to arsenosulvanite Sample: Sn-poor, crystal 1
American Mineralogist, 1994, 79, 750-762
9001621 CIFAl2.826 O4.588 Si0.174P b a m7.7391; 7.6108; 2.918
90; 90; 90
171.872Fischer, R. X.; Schneider, H.; Schmucker, M.
Crystal structure of Al-rich mullite
American Mineralogist, 1994, 79, 983-990
9001622 CIFAs2 H8 Mg5 Mn11 Na2 O50 Si12P -110.485; 11.065; 9.654
107.11; 81.17; 111.86
992.263Grice, J. D.; Dunn, P. J.
Johninnesite: Crystal-structure determination and its relationship to other arsenosilicates
American Mineralogist, 1994, 79, 991-995
9001623 CIFAs2 Fe2.38 O7 Ti0.58P 1 21/m 110.616; 3.242; 8.932
90; 108.89; 90
290.857Graeser, S.; Schwander, H.; Demartin, F.; Gramaccioli, C. M.; Pilati, T.; Reusser, E.
Fetiasite (Fe2+,Fe3+,Ti)3O2[As2O5], a new arsenite mineral: Its description and structure determination Note: Sample B
American Mineralogist, 1994, 79, 996-1002
9001624 CIFAs2 Fe2.38 O7 Ti0.54P 1 21/m 110.614; 3.252; 8.945
90; 108.95; 90
292.018Graeser, S.; Schwander, H.; Demartin, F.; Gramaccioli, C. M.; Pilati, T.; Reusser, E.
Fetiasite (Fe2+,Fe3+,Ti)3O2[As2O5], a new arsenite mineral: Its description and structure determination Note: Sample A
American Mineralogist, 1994, 79, 996-1002
9001625 CIFH12 I6 K3.56 Mg5 Na4.44 O48 S6P -3 c 19.4643; 9.4643; 27.336
90; 90; 120
2120.52Konnert, J. A.; Evans, H. T.; McGee, J. J.; Ericksen, G. E.
Mineralogical studies of the nitrate deposits of Chile: VII. Two saline minerals with the composition K6(Na,K)4Na6Mg10(XO4)12(IO3)12.12H2O: Fuenzalidaite (X=S) and carloruizite (X=Se)
American Mineralogist, 1994, 79, 1003-1008
9001626 CIFH12 I6 K3.64 Mg5 Na4.36 O48 Se6P -3 c 19.5901; 9.5901; 27.56
90; 90; 120
2195.11Konnert, J. A.; Evans, H. T.; McGee, J. J.; Ericksen, G. E.
Mineralogical studies of the nitrate deposits of Chile: VII. Two saline minerals with the composition K6(Na,K)4Na6Mg10(XO4)12(IO3)12.12H2O: Fuenzalidaite (X=S) and carlosruizite (X=Se)
American Mineralogist, 1994, 79, 1003-1008
9001627 CIFFe O3 SiP 1 21/c 19.7075; 9.0807; 5.2347
90; 108.46; 90
437.7Hugh-Jones D A; Woodland, A. B.; Angel, R. J.
The structure of high-pressure C2/c ferrosilite and crystal chemistry of high-pressure C2/c pyroxenes P = room pressure
American Mineralogist, 1994, 79, 1032-1041
9001628 CIFFe O3 SiC 1 2/c 19.54; 8.996; 5.008
90; 103.01; 90
418.763Hugh-Jones D A; Woodland, A. B.; Angel, R. J.
The structure of high-pressure C2/c ferrosilite and crystal chemistry of high-pressure C2/c pyroxenes P = 1.87 GPa
American Mineralogist, 1994, 79, 1032-1041
9001629 CIFFe O3 SiC 1 2/c 19.73; 9.11; 5.23
90; 107.8; 90
441.396Hugh-Jones D A; Woodland, A. B.; Angel, R. J.
The structure of high-pressure C2/c ferrosilite and crystal chemistry of high-pressure C2/c pyroxenes Sample: fictive hedenbergite-like C2/c FeSiO3 phase
American Mineralogist, 1994, 79, 1032-1041
9001630 CIFAl Na O8 Si3C -18.1372; 12.787; 7.1574
94.245; 116.605; 87.809
664.037Downs, R. T.; Hazen, R. M.; Finger, L. W.
The high-pressure crystal chemistry of low albite and the origin of the pressure dependency of Al-Si ordering P = 0, complete data set Note: sample is from Crete
American Mineralogist, 1994, 79, 1042-1052
9001631 CIFAl Na O8 Si3C -18.1372; 12.787; 7.1574
94.245; 116.605; 87.809
664.037Downs, R. T.; Hazen, R. M.; Finger, L. W.
The high-pressure crystal chemistry of low albite and the origin of the pressure dependency of Al-Si ordering P = 0, constrained data set Note: sample is from Crete
American Mineralogist, 1994, 79, 1042-1052
9001632 CIFAl Na O8 Si3C -18.1104; 12.771; 7.1482
94.244; 116.667; 87.835
659.817Downs, R. T.; Hazen, R. M.; Finger, L. W.
The high-pressure crystal chemistry of low albite and the origin of the pressure dependency of Al-Si ordering P = .44 GPa Note: sample is from Crete
American Mineralogist, 1994, 79, 1042-1052
9001633 CIFAl Na O8 Si3C -18.051; 12.7336; 7.1242
94.252; 116.784; 87.909
650.203Downs, R. T.; Hazen, R. M.; Finger, L. W.
The high-pressure crystal chemistry of low albite and the origin of the pressure dependency of Al-Si ordering P = 1.22 GPa Note: sample is from Crete
American Mineralogist, 1994, 79, 1042-1052
9001634 CIFAl Na O8 Si3C -17.9567; 12.6784; 7.0897
94.217; 116.992; 88.025
635.564Downs, R. T.; Hazen, R. M.; Finger, L. W.
The high-pressure crystal chemistry of low albite and the origin of the pressure dependency of Al-Si ordering P = 2.68 GPa Note: sample is from Crete
American Mineralogist, 1994, 79, 1042-1052
9001635 CIFAl Na O8 Si3C -17.8925; 12.64; 7.0667
94.177; 117.074; 88.128
626.063Downs, R. T.; Hazen, R. M.; Finger, L. W.
The high-pressure crystal chemistry of low albite and the origin of the pressure dependency of Al-Si ordering P = 3.78 GPa Note: sample is from Crete
American Mineralogist, 1994, 79, 1042-1052
9001636 CIFH4 Na2 O13 Si4 Ti0.9 Zr0.1P n c a16.3721; 8.7492; 7.402
90; 90; 90
1060.28Merlino, S.; Pasero, M.; Artioli, G.; Khomyakov, A. P.
Penkvilksite, a new kind of silicate structure: OD character, X-ray single-crystal (1M), and powder Rietveld (2O) refinements of two MDO polytypes Note: polytype 2O
American Mineralogist, 1994, 79, 1185-1193
9001637 CIFH4 Na2 O13 Si4 TiP 1 21/c 18.956; 8.727; 7.387
90; 112.74; 90
532.481Merlino, S.; Pasero, M.; Artioli, G.; Khomyakov, A. P.
Penkvilksite, a new kind of silicate structure: OD character, X-ray single-crystal (1M), and powder Rietveld (2O) refinements of two MDO polytypes Note: polytype 1M Data has been corrected according to the ICSD
American Mineralogist, 1994, 79, 1185-1193
9001638 CIFH4 Mg3 O9 Si2P 3 1 m5.33; 5.33; 7.269
90; 90; 120
178.838Mellini, M.; Viti, C.
Crystal structure of lizardite-1T from Elba, Italy Sample: MFN3-1 Note: U(1,2) for Mg and O2 have been changed to match symmetry constraints.
American Mineralogist, 1994, 79, 1194-1198
9001639 CIFH4 Mg3 O9 Si2P 3 1 m5.338; 5.338; 7.257
90; 90; 120
179.079Mellini, M.; Viti, C.
Crystal structure of lizardite-1T from Elba, Italy Sample: MFN3-6 Note: U(1,2) for Si, O2 and O4 have been changed to match symmetry constraints.
American Mineralogist, 1994, 79, 1194-1198
9001640 CIFCl2 Hg5 O4I b a m11.619; 6.105; 11.71
90; 90; 90
830.637Hawthorne, F. C.; Cooper, M. A.; Sen Gupta, P. K.
The crystal structure of pinchite, Hg5Cl2O4
American Mineralogist, 1994, 79, 1199-1203
9001641 CIFFe0.249 Mg0.751 O3 SiP b c a18.2747; 8.8729; 5.1988
90; 90; 90
842.983Yang, H.; Ghose, S.
A transitional structural state and anomalous Fe-Mg order-disorder in Mg-rich orthopyroxene, (Mg0.75Fe0.25)2Si2O6 T = 296 K
American Mineralogist, 1995, 80, 9-20
9001642 CIFFe0.249 Mg0.751 O3 SiP b c a18.3878; 8.9577; 5.2441
90; 90; 90
863.768Yang, H.; Ghose, S.
A transitional structural state and anomalous Fe-Mg order-disorder in Mg-rich orthopyroxene, (Mg0.75Fe0.25)2Si2O6 T = 1000 K
American Mineralogist, 1995, 80, 9-20
9001643 CIFFe0.249 Mg0.751 O3 SiP b c a18.4105; 8.9691; 5.254
90; 90; 90
867.57Yang, H.; Ghose, S.
A transitional structural state and anomalous Fe-Mg order-disorder in Mg-rich orthopyroxene, (Mg0.75Fe0.25)2Si2O6 T = 1100 K
American Mineralogist, 1995, 80, 9-20
9001644 CIFFe0.249 Mg0.751 O3 SiP b c a18.4317; 8.9822; 5.2647
90; 90; 90
871.609Yang, H.; Ghose, S.
A transitional structural state and anomalous Fe-Mg order-disorder in Mg-rich orthopyroxene, (Mg0.75Fe0.25)2Si2O6 T = 1200 K
American Mineralogist, 1995, 80, 9-20
9001645 CIFFe0.249 Mg0.751 O3 SiP b c a18.5132; 8.9809; 5.3243
90; 90; 90
885.246Yang, H.; Ghose, S.
A transitional structural state and anomalous Fe-Mg order-disorder in Mg-rich orthopyroxene, (Mg0.75Fe0.25)2Si2O6 T = 1300 K
American Mineralogist, 1995, 80, 9-20
9001646 CIFCe O4 PP 1 21/n 16.7902; 7.0203; 6.4674
90; 103.38; 90
299.928Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures
American Mineralogist, 1995, 80, 21-26
9001647 CIFLa O4 PP 1 21/n 16.8313; 7.0705; 6.5034
90; 103.27; 90
305.732Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures La(PO4)
American Mineralogist, 1995, 80, 21-26
9001648 CIFCe O4 PP 1 21/n 16.788; 7.0163; 6.465
90; 103.43; 90
299.486Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Ce(PO4)
American Mineralogist, 1995, 80, 21-26
9001649 CIFO4 P PrP 1 21/n 16.7596; 6.9812; 6.4344
90; 103.53; 90
295.213Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Pr(PO4)
American Mineralogist, 1995, 80, 21-26
9001650 CIFNd O4 PP 1 21/n 16.7352; 6.95; 6.4049
90; 103.68; 90
291.306Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Nd(PO4)
American Mineralogist, 1995, 80, 21-26
9001651 CIFO4 P SmP 1 21/n 16.6818; 6.8877; 6.3653
90; 103.86; 90
284.416Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Sm(PO4)
American Mineralogist, 1995, 80, 21-26
9001652 CIFEu O4 PP 1 21/n 16.6613; 6.8618; 6.3491
90; 103.96; 90
281.636Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Eu(PO4)
American Mineralogist, 1995, 80, 21-26
9001653 CIFGd O4 PP 1 21/n 16.6435; 6.8414; 6.3281
90; 103.976; 90
279.103Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Gd(PO4)
American Mineralogist, 1995, 80, 21-26
9001654 CIFO4 P YI 41/a m d :26.8947; 6.8947; 6.0276
90; 90; 90
286.533Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures
American Mineralogist, 1995, 80, 21-26
9001655 CIFO4 P TbI 41/a m d :26.9309; 6.9309; 6.0606
90; 90; 90
291.135Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Tb(PO4)
American Mineralogist, 1995, 80, 21-26
9001656 CIFDy O4 PI 41/a m d :26.9052; 6.9052; 6.0384
90; 90; 90
287.922Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Dy(PO4)
American Mineralogist, 1995, 80, 21-26
9001657 CIFHo O4 PI 41/a m d :26.8773; 6.8773; 6.0176
90; 90; 90
284.616Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Ho(PO4)
American Mineralogist, 1995, 80, 21-26
9001658 CIFEr O4 PI 41/a m d :26.8508; 6.8508; 5.9968
90; 90; 90
281.451Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Er(PO4)
American Mineralogist, 1995, 80, 21-26
9001659 CIFO4 P TmI 41/a m d :26.8294; 6.8294; 5.9798
90; 90; 90
278.902Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Tm(PO4)
American Mineralogist, 1995, 80, 21-26
9001660 CIFO4 P YbI 41/a m d :26.8093; 6.8093; 5.9639
90; 90; 90
276.526Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Yb(PO4)
American Mineralogist, 1995, 80, 21-26
9001661 CIFLu O4 PI 41/a m d :26.7828; 6.7828; 5.9467
90; 90; 90
273.586Ni, Y.; Hughes, J. M.; Mariano, A. N.
Crystal chemistry of the monazite and xenotime structures Lu(PO4)
American Mineralogist, 1995, 80, 21-26
9001662 CIFCa0.03 K0.152 Mg0.28 Mn4.72 Na2.798 O24 Si8C 1 2/m 19.889; 18.033; 5.296
90; 105.08; 90
911.904Hawthorne, F. C.; Oberti, R.; Cannillo, E.; Sardone, N.; Zanetti, A.; Grice, J. D.; Ashley, P. M.
A new anhydrous amphibole from the Hoskins mine, Grenfell, New South Wales, Australia: Description and crystal structure of ungarettiite, NaNa2(Mn2Mn3)Si8O22O2 Sample U1
American Mineralogist, 1995, 80, 165-172
9001663 CIFCa0.03 K0.152 Mg0.29 Mn4.71 Na2.77 O24 Si8C 1 2/m 19.893; 18.041; 5.295
90; 105.1; 90
912.419Hawthorne, F. C.; Oberti, R.; Cannillo, E.; Sardone, N.; Zanetti, A.; Grice, J. D.; Ashley, P. M.
A new anhydrous amphibole from the Hoskins mine, Grenfell, New South Wales, Australia: Description and crystal structure of ungarettiite, NaNa2(Mn2Mn3)Si8O22O2 Sample U2
American Mineralogist, 1995, 80, 165-172
9001664 CIFAl2 Ca14 H8 K0.948 O64 Si20 Zn2.406P -3 c 19.777; 9.777; 33.293
90; 90; 120
2756.1Dai, Y. S.; Post, J. E.; Appleman, D. E.
Crystal structure of minehillite: Twinning and structural relationships to reyerite
American Mineralogist, 1995, 80, 173-178
9001665 CIFAl F3 H2 O2 PbP -16.27; 6.821; 5.057
90.68; 107.69; 104.46
198.618Kampf, A. R.; Foord, E. E.
Artroeite, PbAlF3(OH)2, a new mineral from the Grand Reef mine, Graham County, Arizona: Description and crystal structure
American Mineralogist, 1995, 80, 179-183
9001666 CIFFe0.24 Mg1.76 O4 SiP b n m4.74; 10.23; 5.96
90; 90; 90
289.002Artioli, G.; Rinaldi, R.; Wilson, C. C.; Zanazzi, P. F.
High-temperature Fe-Mg cation partitioning in olivine: In-situ single-crystal neutron diffraction study T = room temperature Atomic parameters obtained from the ICSD
American Mineralogist, 1995, 80, 197-200
9001667 CIFFe0.24 Mg1.76 O4 SiP b n m4.76; 10.33; 6.05
90; 90; 90
297.483Artioli, G.; Rinaldi, R.; Wilson, C. C.; Zanazzi, P. F.
High-temperature Fe-Mg cation partitioning in olivine: In-situ single-crystal neutron diffraction study T = 880 C Atomic parameters obtained from the ICSD
American Mineralogist, 1995, 80, 197-200
9001668 CIFFe0.24 Mg1.76 O4 SiP b n m4.769; 10.33; 6.037
90; 90; 90
297.405Artioli, G.; Rinaldi, R.; Wilson, C. C.; Zanazzi, P. F.
High-temperature Fe-Mg cation partitioning in olivine: In-situ single-crystal neutron diffraction study T = 960 C Atomic parameters obtained from the ICSD
American Mineralogist, 1995, 80, 197-200
9001669 CIFFe0.24 Mg1.76 O4 SiP b n m4.772; 10.35; 6.053
90; 90; 90
298.959Artioli, G.; Rinaldi, R.; Wilson, C. C.; Zanazzi, P. F.
High-temperature Fe-Mg cation partitioning in olivine: In-situ single-crystal neutron diffraction study T = 1030 C Atomic parameters obtained from the ICSD
American Mineralogist, 1995, 80, 197-200
9001670 CIFFe0.24 Mg1.76 O4 SiP b n m4.77; 10.38; 6.07
90; 90; 90
300.541Artioli, G.; Rinaldi, R.; Wilson, C. C.; Zanazzi, P. F.
High-temperature Fe-Mg cation partitioning in olivine: In-situ single-crystal neutron diffraction study T = 1060 C Atomic parameters obtained from the ICSD
American Mineralogist, 1995, 80, 197-200
9001671 CIFCa4.497 F La0.325 Na0.178 O12 P2.856 Si0.144P 63/m9.4123; 9.4123; 6.908
90; 90; 120
529.998Fleet M E; Pan Y
Site preference of rare earth elements in fluorapatite Sample: La-FAp
American Mineralogist, 1995, 80, 329-335
9001672 CIFCa4.331 F Na0.257 Nd0.409 O12 P2.841 Si0.159P 63/m9.3979; 9.3979; 6.8997
90; 90; 120
527.743Fleet M E; Pan Y
Site preference of rare earth elements in fluorapatite Sample: Nd-FAp
American Mineralogist, 1995, 80, 329-335
9001673 CIFCa4.52 F Gd0.307 Na0.173 O12 P2.859 Si0.141P 63/m9.3853; 9.3853; 6.8876
90; 90; 120
525.406Fleet M E; Pan Y
Site preference of rare earth elements in fluorapatite Sample: Gd-FAp
American Mineralogist, 1995, 80, 329-335
9001674 CIFCa4.584 Dy0.258 F Na0.158 O12 P2.874 Si0.12P 63/m9.3784; 9.3784; 6.8832
90; 90; 120
524.298Fleet M E; Pan Y
Site preference of rare earth elements in fluorapatite Sample: Dy-FAp
American Mineralogist, 1995, 80, 329-335
9001675 CIFAl0.012 Ca0.008 Fe0.008 H4 Mg0.106 Mn1.85 O6 SiP c a 2112.672; 7.217; 5.341
90; 90; 90
488.455Nyfeler, D.; Armbruster, T.; Dixon, R.; Bermanec, V.
Nchwaningite, Mn2SiO3(OH)2.H2O, a new pyroxene-related chain silicate from the N'chwaning mine, Kalahari manganese field, South Africa
American Mineralogist, 1995, 80, 377-386
9001676 CIFAl2.45 B0.56 H4 Li0.955 O9 Si1.015C 15.07; 8.776; 13.778
90.09; 90.12; 89.97
613.041Zheng, H.; Bailey, S. W.
The crystal structure of manandonite-2H2
American Mineralogist, 1995, 80, 387-393
9001677 CIFAs3.89 S6.5 Sb0.11 TlP 1 2/n 19.584; 5.679; 21.501
90; 100.07; 90
1152.22Foit, F. F.; Robinson, P. D.; Wilson, J. R.
The crystal structure of gillulyite, Tl2(As,Sb)8S13, from the Mercur gold deposit, Tooele County, Utah, U.S.A
American Mineralogist, 1995, 80, 394-399
9001678 CIFAs SP 1 21/c 19.909; 9.655; 8.502
90; 97.29; 90
806.823Bonazzi, P.; Menchetti, S.; Pratesi, G.
The crystal structure of pararealgar
American Mineralogist, 1995, 80, 400-403
9001679 CIFAl0.011 Cr0.012 Fe0.008 H0.108 Nb0.011 O2 Ti0.96P 42/m n m4.587; 4.587; 2.954
90; 90; 90
62.154Swope, R. J.; Smyth, J. R.; Larson, A. C.
H in rutile-type compounds: I. Single-crystal neutron and X-ray diffraction study of H in rutile Sample: neutron; natural, T = 24 K
American Mineralogist, 1995, 80, 448-453
9001680 CIFAl0.08 Cr0.01 Nb0.01 O2 Ti0.91P 42/m n m4.594; 4.594; 2.9586
90; 90; 90
62.441Swope, R. J.; Smyth, J. R.; Larson, A. C.
H in rutile-type compounds: I. Single-crystal neutron and X-ray diffraction study of H in rutile Sample: X-ray; natural, T = 300 K
American Mineralogist, 1995, 80, 448-453
9001681 CIFO2 Ti0.992P 42/m n m4.5922; 4.5922; 2.9574
90; 90; 90
62.367Swope, R. J.; Smyth, J. R.; Larson, A. C.
H in rutile-type compounds: I. Single-crystal neutron and X-ray diffraction study of H in rutile Sample: X-ray; synthetic, T = 300 K
American Mineralogist, 1995, 80, 448-453
9001682 CIFO2 SiP 42/m n m4.1839; 4.1839; 2.6684
90; 90; 90
46.71Smyth, J. R.; Swope, R. J.; Pawley, A. R.
H in rutile-type compounds: II. Crystal chemistry of Al substitution in H-bearing stishovite Sample: aluminous
American Mineralogist, 1995, 80, 454-456
9001683 CIFO2 SiP 42/m n m4.1773; 4.1773; 2.6652
90; 90; 90
46.507Smyth, J. R.; Swope, R. J.; Pawley, A. R.
H in rutile-type compounds: II. Crystal chemistry of Al substitution in H-bearing stishovite Sample: pure-silica
American Mineralogist, 1995, 80, 454-456

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