Crystallography Open Database

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9002890 CIFAl2 Ca H14 O15.522 Si4C 1 2/m 114.74716; 13.06601; 7.55735
90; 112.04; 90
1349.79Fridriksson, T.; Bish, D. L.; Bird, D. K.
Hydrogen-bonded water in laumontite I: X-ray powder diffraction study of water site occupancy and structural changes in laumontite during room-temperature isothermal hydration/dehydration Sample: P = 16.4 mbar PH2O
American Mineralogist, 2003, 88, 277-287
9002891 CIFAl2 Ca H12 O16.323 Si4C 1 2/m 114.8786; 13.1708; 7.5373
90; 110.196; 90
1386.22Fridriksson, T.; Bish, D. L.; Bird, D. K.
Hydrogen-bonded water in laumontite I: X-ray powder diffraction study of water site occupancy and structural changes in laumontite during room-temperature isothermal hydration/dehydration Sample: P = P = 37.6 mbar PH2O
American Mineralogist, 2003, 88, 277-287
9002892 CIFCa O5 Si SnA 1 2/a 17.1523; 8.8902; 6.6677
90; 113.362; 90
389.21Rath, S.; Kunz, M.; Miletich, R.
Pressure-induced phase transition in malayaite, CaSnOSiO4 Sample: at P = 0.0 GPa
American Mineralogist, 2003, 88, 293-300
9002893 CIFCa O5 Si SnA 1 2/a 17.056; 8.8436; 6.5629
90; 112.948; 90
377.117Rath, S.; Kunz, M.; Miletich, R.
Pressure-induced phase transition in malayaite, CaSnOSiO4 Sample: at P = 4.238 GPa
American Mineralogist, 2003, 88, 293-300
9002894 CIFCa O5 Si SnA 1 2/a 17.0498; 8.8402; 6.5573
90; 112.925; 90
376.384Rath, S.; Kunz, M.; Miletich, R.
Pressure-induced phase transition in malayaite, CaSnOSiO4 Sample: at P = 4.505 GPa
American Mineralogist, 2003, 88, 293-300
9002895 CIFCa O5 Si SnA -17.0252; 8.8281; 6.5318
89.861; 112.84; 90.171
373.332Rath, S.; Kunz, M.; Miletich, R.
Pressure-induced phase transition in malayaite, CaSnOSiO4 Sample: at P = 5.769 GPa
American Mineralogist, 2003, 88, 293-300
9002896 CIFCa O5 Si SnA -16.9948; 8.8103; 6.4976
89.175; 112.738; 91.104
369.224Rath, S.; Kunz, M.; Miletich, R.
Pressure-induced phase transition in malayaite, CaSnOSiO4 Sample: at P = 7.33 GPa
American Mineralogist, 2003, 88, 293-300
9002897 CIFCa H2 O6 Ti2P 1 21/n 14.9436; 12.109; 15.911
90; 98.937; 90
940.902Krivovichev, S. V.; Yakovenchuk, V. N.; Burns, P. C.; Pakhomovsky, Y. A.; Menshikov, Y. P.
Cafetite, Ca[Ti2O5](H2O): Crystal structure and revision of chemical formula
American Mineralogist, 2003, 88, 424-429
9002898 CIFAl Ca2 F9 PbC -17.722; 7.516; 12.206
98.86; 96.91; 90
694.757Kampf, A. R.; Merlino, S.; Pasero, M.
Order-disorder approach to calcioaravaipaite, [PbCa2Al(F,OH)9]: The crystal structure of the triclinic MDO polytype
American Mineralogist, 2003, 88, 430-435
9002899 CIFAs17.464 Pb9.536 S35P 1 21/c 137.71; 7.898; 20.106
90; 101.993; 90
5857.54Berlepsch, P.; Armbruster, T.; Makovicky, E.; Topa, D.
Another step toward understanding the true nature of sartorite: Determination and refinement of a ninefold superstructure
American Mineralogist, 2003, 88, 450-461
9002900 CIFCo O18 Sb2P 316.105; 16.105; 9.851
90; 90; 120
2212.75Friedrich, A.; Mazzi, F.; Wildner, M.; Tillmanns, E.
Isotypism of Co(H2O)6[Sb(OH)6]2 with brandholzite and bottinoite
American Mineralogist, 2003, 88, 462-463
9002901 CIFAl Ca0.61 Fe0.13 K0.17 Mg0.43 Mn0.01 Na0.05 O6 Si1.61C 1 2/c 19.773; 8.926; 5.269
90; 105.75; 90
442.378Bindi, L.; Safonov, O. G.; Yapaskurt, V. O.; Perchuk, L. L.; Menchetti, S.
Ultrapotassic clinopyroxene from the Kumdy-Kol microdiamond mine, Kokchetav Complex, Kazakhstan: Occurrence, composition and crystal-chemical characterization
American Mineralogist, 2003, 88, 464-468
9002902 CIFAl4.5 H34 O48.88 Si13.5 Sr2.116C 1 m 117.714; 18; 7.43
90; 116.627; 90
2117.81Dobelin, N.; Armbruster, T.
Stepwise dehydration of Sr-exchanged heulandite: A single-crystal X-ray study Note: fully hydrated at room temperature
American Mineralogist, 2003, 88, 527-533
9002903 CIFAl4.5 H34 O48.49 Si13.5 Sr2.094C 1 m 117.698; 17.97; 7.426
90; 116.653; 90
2110.76Dobelin, N.; Armbruster, T.
Stepwise dehydration of Sr-exchanged heulandite: A single-crystal X-ray study Note: dehydrated at 100 deg C, measured at -170 deg C
American Mineralogist, 2003, 88, 527-533
9002904 CIFAl4.5 H34 O45.29 Si13.5 Sr2.079C 1 m 117.643; 17.842; 7.418
90; 116.851; 90
2083.33Dobelin, N.; Armbruster, T.
Stepwise dehydration of Sr-exchanged heulandite: A single-crystal X-ray study Note: dehydrated at 150 deg C, measured at -170 deg C
American Mineralogist, 2003, 88, 527-533
9002905 CIFAl4.5 H38 O44.58 Si13.5 Sr2.678C 1 m 117.642; 17.775; 7.414
90; 116.897; 90
2073.42Dobelin, N.; Armbruster, T.
Stepwise dehydration of Sr-exchanged heulandite: A single-crystal X-ray study Note: dehydrated at 200 deg C, measured at -170 deg C
American Mineralogist, 2003, 88, 527-533
9002906 CIFAl4.5 H21.04 O44.3 Si13.5 Sr1.73C 1 m 117.6; 17.59; 7.408
90; 116.76; 90
2047.78Dobelin, N.; Armbruster, T.
Stepwise dehydration of Sr-exchanged heulandite: A single-crystal X-ray study Note: dehydrated at 250 deg C, measured at -170 deg C
American Mineralogist, 2003, 88, 527-533
9002988 CIFH57.2 Mg2.16 Mn0.84 O68 S4 U8P -110.815; 11.249; 13.851
66.224; 72.412; 69.955
1422.06Brugger, J.; Burns, P. C.; Meisser, N.
Contribution to the mineralogy of acid drainage of uranium minerals: Marecottite and the zippeite-group Locality: La Creusaz uranium prospect near Les Marecottes, Western Swiss Alps, Switzerland
American Mineralogist, 2003, 88, 676-685
9002989 CIFC3 Na4 O11 UP -19.291; 9.292; 12.895
90.73; 90.82; 120
963.75Ondrus, P.; Skala, R.; Veselovsky, F.; Sejkora, J.; Vitti, C.
Cejkaite, the triclinic polymorph of Na4(UO2)(CO3)3 - a new mineral from Jachymov, Czech Republic
American Mineralogist, 2003, 88, 686-693
9002990 CIFCl0.42 Fe2 H2.32 O4I 1 2/m 110.587; 3.0311; 10.515
90; 90.03; 90
337.429Post, J. E.; Heaney, P. J.; Von Dreele, R. B.; Hanson, J. C.
Neutron and temperature-resolved synchrotron X-ray powder diffraction study of akaganeite
American Mineralogist, 2003, 88, 782-788
9002991 CIFMg2 O4 TiF d -3 m :28.4469; 8.4469; 8.4469
90; 90; 90
602.687O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 90 C
American Mineralogist, 2003, 88, 860-865
9002992 CIFMg2 O4 TiF d -3 m :28.4456; 8.4456; 8.4456
90; 90; 90
602.409O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 70 C
American Mineralogist, 2003, 88, 860-865
9002993 CIFMg2 O4 TiF d -3 m :28.4474; 8.4474; 8.4474
90; 90; 90
602.794O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 97 C
American Mineralogist, 2003, 88, 860-865
9002994 CIFMg2 O4 TiF d -3 m :28.452; 8.452; 8.452
90; 90; 90
603.78O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 152 C
American Mineralogist, 2003, 88, 860-865
9002995 CIFMg2 O4 TiF d -3 m :28.4578; 8.4578; 8.4578
90; 90; 90
605.023O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 220 C
American Mineralogist, 2003, 88, 860-865
9002996 CIFMg2.001 O4 TiF d -3 m :28.4638; 8.4638; 8.4638
90; 90; 90
606.312O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 289 C
American Mineralogist, 2003, 88, 860-865
9002997 CIFMg2 O4 TiF d -3 m :28.4698; 8.4698; 8.4698
90; 90; 90
607.602O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 360 C
American Mineralogist, 2003, 88, 860-865
9002998 CIFMg2 O4 TiF d -3 m :28.4757; 8.4757; 8.4757
90; 90; 90
608.873O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 425 C
American Mineralogist, 2003, 88, 860-865
9002999 CIFMg2 O4 TiF d -3 m :28.4816; 8.4816; 8.4816
90; 90; 90
610.145O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 483 C
American Mineralogist, 2003, 88, 860-865
9003000 CIFMg2 O4 TiF d -3 m :28.4877; 8.4877; 8.4877
90; 90; 90
611.463O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 559 C
American Mineralogist, 2003, 88, 860-865
9003001 CIFMg2 O4 TiF d -3 m :28.4941; 8.4941; 8.4941
90; 90; 90
612.847O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 625 C
American Mineralogist, 2003, 88, 860-865
9003002 CIFMg2 O4 TiF d -3 m :28.5008; 8.5008; 8.5008
90; 90; 90
614.298O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 690 C
American Mineralogist, 2003, 88, 860-865
9003003 CIFMg2 O4 TiF d -3 m :28.5073; 8.5073; 8.5073
90; 90; 90
615.709O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 756 C
American Mineralogist, 2003, 88, 860-865
9003004 CIFMg2 O4 TiF d -3 m :28.514; 8.514; 8.514
90; 90; 90
617.165O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 820 C
American Mineralogist, 2003, 88, 860-865
9003005 CIFMg2 O4 TiF d -3 m :28.5208; 8.5208; 8.5208
90; 90; 90
618.644O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 885 C
American Mineralogist, 2003, 88, 860-865
9003006 CIFMg2 O4 TiF d -3 m :28.5277; 8.5277; 8.5277
90; 90; 90
620.149O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 949 C
American Mineralogist, 2003, 88, 860-865
9003007 CIFMg2 O4 TiF d -3 m :28.5353; 8.5353; 8.5353
90; 90; 90
621.808O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 1020 C
American Mineralogist, 2003, 88, 860-865
9003008 CIFMg2 O4 TiF d -3 m :28.5389; 8.5389; 8.5389
90; 90; 90
622.595O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: First series, T = 1054 C
American Mineralogist, 2003, 88, 860-865
9003009 CIFMg2 O4 TiF d -3 m :28.451; 8.451; 8.451
90; 90; 90
603.565O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 100 C
American Mineralogist, 2003, 88, 860-865
9003010 CIFMg2 O4 TiF d -3 m :28.4561; 8.4561; 8.4561
90; 90; 90
604.659O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 240 C
American Mineralogist, 2003, 88, 860-865
9003011 CIFMg2 O4 TiF d -3 m :28.4872; 8.4872; 8.4872
90; 90; 90
611.355O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 559 C
American Mineralogist, 2003, 88, 860-865
9003012 CIFMg2 O4 TiF d -3 m :28.5154; 8.5154; 8.5154
90; 90; 90
617.469O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 850 C
American Mineralogist, 2003, 88, 860-865
9003013 CIFMg2 O4 TiF d -3 m :28.5224; 8.5224; 8.5224
90; 90; 90
618.993O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 912 C
American Mineralogist, 2003, 88, 860-865
9003014 CIFMg2 O4 TiF d -3 m :28.5287; 8.5287; 8.5287
90; 90; 90
620.367O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 975 C
American Mineralogist, 2003, 88, 860-865
9003015 CIFMg2 O4 TiF d -3 m :28.5367; 8.5367; 8.5367
90; 90; 90
622.114O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1039 C
American Mineralogist, 2003, 88, 860-865
9003016 CIFMg2 O4 TiF d -3 m :28.5442; 8.5442; 8.5442
90; 90; 90
623.755O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1103 C
American Mineralogist, 2003, 88, 860-865
9003017 CIFMg2 O4 TiF d -3 m :28.5519; 8.5519; 8.5519
90; 90; 90
625.443O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1167 C
American Mineralogist, 2003, 88, 860-865
9003018 CIFMg2 O4 TiF d -3 m :28.5597; 8.5597; 8.5597
90; 90; 90
627.156O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1232 C
American Mineralogist, 2003, 88, 860-865
9003019 CIFMg2 O4 TiF d -3 m :28.5674; 8.5674; 8.5674
90; 90; 90
628.85O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1297 C
American Mineralogist, 2003, 88, 860-865
9003020 CIFMg2 O4 TiF d -3 m :28.5754; 8.5754; 8.5754
90; 90; 90
630.613O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1359 C
American Mineralogist, 2003, 88, 860-865
9003021 CIFMg2 O4 TiF d -3 m :28.5814; 8.5814; 8.5814
90; 90; 90
631.938O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1403 C
American Mineralogist, 2003, 88, 860-865
9003022 CIFMg2 O4 TiF d -3 m :28.582; 8.582; 8.582
90; 90; 90
632.071O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1416 C
American Mineralogist, 2003, 88, 860-865
9003023 CIFMg2 O4 TiF d -3 m :28.5807; 8.5807; 8.5807
90; 90; 90
631.783O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1397 C
American Mineralogist, 2003, 88, 860-865
9003024 CIFMg2 O4 TiF d -3 m :28.5735; 8.5735; 8.5735
90; 90; 90
630.194O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1346 C
American Mineralogist, 2003, 88, 860-865
9003025 CIFMg2 O4 TiF d -3 m :28.5661; 8.5661; 8.5661
90; 90; 90
628.564O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1283 C
American Mineralogist, 2003, 88, 860-865
9003026 CIFMg2 O4 TiF d -3 m :28.5586; 8.5586; 8.5586
90; 90; 90
626.914O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1219 C
American Mineralogist, 2003, 88, 860-865
9003027 CIFMg2 O4 TiF d -3 m :28.5413; 8.5413; 8.5413
90; 90; 90
623.12O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 1081 C
American Mineralogist, 2003, 88, 860-865
9003028 CIFMg2 O4 TiF d -3 m :28.5275; 8.5275; 8.5275
90; 90; 90
620.105O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 944 C
American Mineralogist, 2003, 88, 860-865
9003029 CIFMg2 O4 TiF d -3 m :28.5199; 8.5199; 8.5199
90; 90; 90
618.448O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 882 C
American Mineralogist, 2003, 88, 860-865
9003030 CIFMg2 O4 TiF d -3 m :28.511; 8.511; 8.511
90; 90; 90
616.512O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 797 C
American Mineralogist, 2003, 88, 860-865
9003031 CIFMg2 O4 TiF d -3 m :28.5075; 8.5075; 8.5075
90; 90; 90
615.752O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 756 C
American Mineralogist, 2003, 88, 860-865
9003032 CIFMg2 O4 TiF d -3 m :28.5011; 8.5011; 8.5011
90; 90; 90
614.363O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 693 C
American Mineralogist, 2003, 88, 860-865
9003033 CIFMg2.001 O4 TiF d -3 m :28.4947; 8.4947; 8.4947
90; 90; 90
612.977O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 630 C
American Mineralogist, 2003, 88, 860-865
9003034 CIFMg2 O4 TiF d -3 m :28.4886; 8.4886; 8.4886
90; 90; 90
611.657O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 567 C
American Mineralogist, 2003, 88, 860-865
9003035 CIFMg2 O4 TiF d -3 m :28.4828; 8.4828; 8.4828
90; 90; 90
610.404O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 503 C
American Mineralogist, 2003, 88, 860-865
9003036 CIFMg2 O4 TiF d -3 m :28.4769; 8.4769; 8.4769
90; 90; 90
609.132O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 439 C
American Mineralogist, 2003, 88, 860-865
9003037 CIFMg2 O4 TiF d -3 m :28.4716; 8.4716; 8.4716
90; 90; 90
607.99O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 375 C
American Mineralogist, 2003, 88, 860-865
9003038 CIFMg2 O4 TiF d -3 m :28.4661; 8.4661; 8.4661
90; 90; 90
606.806O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 312 C
American Mineralogist, 2003, 88, 860-865
9003039 CIFMg2 O4 TiF d -3 m :28.4612; 8.4612; 8.4612
90; 90; 90
605.753O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 250 C
American Mineralogist, 2003, 88, 860-865
9003040 CIFMg2 O4 TiF d -3 m :28.4569; 8.4569; 8.4569
90; 90; 90
604.83O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 198 C
American Mineralogist, 2003, 88, 860-865
9003041 CIFMg2 O4 TiF d -3 m :28.4545; 8.4545; 8.4545
90; 90; 90
604.316O'Neill H St C; Redfern, S. A. T.; Kesson, S.; Short, S. M.
An in situ neutron diffraction study of cation disordering in synthetic qandilite Mg2TiO4 at high temperature Sample: Second series, T = 168 C
American Mineralogist, 2003, 88, 860-865
9003042 CIFC2 H12 Ca O20 U3P 1 21/n 16.968; 17.276; 15.377
90; 90.064; 90
1851.07Hughes, K.-A.; Burns, P. C.
A new uranyl carbonate sheet in the crystal structure of fontanite, Ca[(UO2)3(CO3)2O2](H2O)6
American Mineralogist, 2003, 88, 962-966
9003043 CIFO4 Pb3P b a m9.3812; 6.461; 3.3168
90; 90; 90
201.038Dinnebier, R. E.; Carlson, S.; Hanfland, M.; Jansen, M.
Bulk modulus and high-pressure crystal structures of minium, Pb3O4, determined by X-ray powder diffraction Sample: Phase III of Pb3O4 at 13.3 GPa
American Mineralogist, 2003, 88, 996-1002
9003044 CIFCr Na O6 Si2C 1 2/c 19.572; 8.7094; 5.2678
90; 107.498; 90
418.836Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 0.0001 GPa Note: altered y-coordinate of O2
American Mineralogist, 2003, 88, 1025-1032
9003045 CIFCr Na O6 Si2C 1 2/c 19.5439; 8.6831; 5.2517
90; 107.441; 90
415.203Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 1.14 GPa
American Mineralogist, 2003, 88, 1025-1032
9003046 CIFCr Na O6 Si2C 1 2/c 19.5173; 8.6605; 5.2374
90; 107.349; 90
412.051Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 2.22 GPa
American Mineralogist, 2003, 88, 1025-1032
9003047 CIFCr Na O6 Si2C 1 2/c 19.4867; 8.6323; 5.2206
90; 107.221; 90
408.36Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 3.53 GPa
American Mineralogist, 2003, 88, 1025-1032
9003048 CIFCr Na O6 Si2C 1 2/c 19.4562; 8.5997; 5.2016
90; 107.104; 90
404.289Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 5.05 GPa
American Mineralogist, 2003, 88, 1025-1032
9003049 CIFCr Na O6 Si2C 1 2/c 19.435; 8.578; 5.1894
90; 107.03; 90
401.58Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 5.78 GPa
American Mineralogist, 2003, 88, 1025-1032
9003050 CIFCr Na O6 Si2C 1 2/c 19.4295; 8.57; 5.1844
90; 106.999; 90
400.651Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 6.25 GPa
American Mineralogist, 2003, 88, 1025-1032
9003051 CIFCr Na O6 Si2C 1 2/c 19.411; 8.5517; 5.1729
90; 106.91; 90
398.315Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 7.08 GPa
American Mineralogist, 2003, 88, 1025-1032
9003052 CIFCr Na O6 Si2C 1 2/c 19.4105; 8.5481; 5.1727
90; 106.915; 90
398.1Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 7.23 GPa
American Mineralogist, 2003, 88, 1025-1032
9003053 CIFCr Na O6 Si2C 1 2/c 19.4059; 8.5472; 5.1703
90; 106.892; 90
397.728Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 7.39 GPa
American Mineralogist, 2003, 88, 1025-1032
9003054 CIFCr Na O6 Si2C 1 2/c 19.3836; 8.5201; 5.156
90; 106.776; 90
394.674Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 8.50 GPa
American Mineralogist, 2003, 88, 1025-1032
9003055 CIFCr Na O6 Si2C 1 2/c 19.3742; 8.5086; 5.1484
90; 106.721; 90
393.28Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 8.97 GPa
American Mineralogist, 2003, 88, 1025-1032
9003056 CIFCr Na O6 Si2C 1 2/c 19.3694; 8.5028; 5.1456
90; 106.717; 90
392.605Origlieri, M. J.; Downs, R. T.; Thompson, R. M.; Pommier, C. J. S.; Denton, M. B.; Harlow, G. E.
High-pressure crystal structure of kosmochlor, NaCrSi2O6, and systematics of anisotropic compression in pyroxenes Sample: P = 9.28 GPa
American Mineralogist, 2003, 88, 1025-1032
9003057 CIFAl0.312 Ca2 Fe2.688 H4 O14 Si3A 1 2/m 18.8879; 6.058; 19.3321
90; 97.498; 90
1032Artioli, G.; Geiger, C. A.; Dapiaggi, M.
The crystal chemistry of julgoldite-Fe3+ from Bombay, India, studied using synchrotron X-ray powder diffraction and 57Fe Mossbauer spectroscopy
American Mineralogist, 2003, 88, 1084-1090
9003058 CIFCa0.195 Fe0.838 Mg0.922 Mn0.027 O6 Si2P 1 21/c 19.716; 8.946; 5.252
90; 108.49; 90
432.935Camara, F.; Carpenter, M. A.; Domeneghetti, M. C.; Tazzoli, V.
Coupling between non-convergent ordering and transition temperature in the C2/c - P2_1/c phase transition in pigeonite Sample: BTS-308 n.17-1, before heat treatment
American Mineralogist, 2003, 88, 1115-1128
9003059 CIFCa0.195 Fe0.834 Mg0.926 Mn0.027 O6 Si2P 1 21/c 19.708; 8.941; 5.244
90; 108.52; 90
431.603Camara, F.; Carpenter, M. A.; Domeneghetti, M. C.; Tazzoli, V.
Coupling between non-convergent ordering and transition temperature in the C2/c - P2_1/c phase transition in pigeonite Sample: BTS-308 n.17-2, after heating at 700 deg C
American Mineralogist, 2003, 88, 1115-1128
9003060 CIFCa0.195 Fe0.835 Mg0.921 Mn0.027 O6 Si2P 1 21/c 19.707; 8.941; 5.247
90; 108.48; 90
431.906Camara, F.; Carpenter, M. A.; Domeneghetti, M. C.; Tazzoli, V.
Coupling between non-convergent ordering and transition temperature in the C2/c - P2_1/c phase transition in pigeonite Sample: BTS-308 n.17-3, after heating at 750 deg C
American Mineralogist, 2003, 88, 1115-1128
9003061 CIFCa0.193 Fe0.829 Mg0.93 Mn0.027 O6 Si2P 1 21/c 19.707; 8.943; 5.246
90; 108.47; 90
431.946Camara, F.; Carpenter, M. A.; Domeneghetti, M. C.; Tazzoli, V.
Coupling between non-convergent ordering and transition temperature in the C2/c - P2_1/c phase transition in pigeonite Sample: BTS-308 n.17-4, after heating at 800 deg C
American Mineralogist, 2003, 88, 1115-1128
9003062 CIFCa0.179 Fe0.85 Mg0.921 Mn0.027 O6 Si2P 1 21/c 19.711; 8.944; 5.249
90; 108.49; 90
432.369Camara, F.; Carpenter, M. A.; Domeneghetti, M. C.; Tazzoli, V.
Coupling between non-convergent ordering and transition temperature in the C2/c - P2_1/c phase transition in pigeonite Sample: BTS-308 n.17-5, after heating at 850 deg C
American Mineralogist, 2003, 88, 1115-1128
9003063 CIFCa0.18 Fe0.834 Mg0.942 Mn0.027 O6 Si2P 1 21/c 19.718; 8.951; 5.25
90; 108.5; 90
433.076Camara, F.; Carpenter, M. A.; Domeneghetti, M. C.; Tazzoli, V.
Coupling between non-convergent ordering and transition temperature in the C2/c - P2_1/c phase transition in pigeonite Sample: BTS-308 n.17-6, after the final in situ run to 500 deg C
American Mineralogist, 2003, 88, 1115-1128
9003064 CIFH8 O8 UC 1 2/c 114.068; 6.721; 8.428
90; 123.356; 90
665.607Burns, P. C.; Hughes, K.-A.
Studtite, [(UO2)(O2)(H2O)2](H2O)2: The first structure of a peroxide mineral
American Mineralogist, 2003, 88, 1165-1168
9003065 CIFCa H18 K Mn12 O61 Si20P n m a16.8146; 25.2036; 13.3866
90; 90; 90
5673.09Hughes, J. M.; Rakovan, J. F.; Bracco, R.; Gunter, M. E.
The atomic arrangemetn of the ganophyllite-group modulated layer silicates as determined from the orthorhombic dimorph of tamaite, with the elusive 16.8 A ganophyllite-group superstructure revealed Note: signs of the y-coordinates for O24 and O25 have been changed
American Mineralogist, 2003, 88, 1324-1330
9003066 CIFCa O6 Ti2P 1 21/a 15.275; 9.009; 9.557
90; 90.43; 90
454.16Grey, I. E.; Mumme, W. G.; Pekov, I. V.; Pushcharovsky, D. Y.
The crystal structure of chromian kassite from the Saranovskoye deposit, Northern Urals, Russia
American Mineralogist, 2003, 88, 1331-1335
9003067 CIFAl7.308 B3 Ca0.011 Fe0.021 H3 K0.002 Li0.378 Mn1.233 Na0.693 O31 Si5.928R 3 m :H15.9466; 15.9466; 7.1384
90; 90; 120
1572.06Ertl, A.; Hughes, J. M.; Prowatke, S.; Rossman, G. R.; London, D.; Fritz, E. A.
Mn-rich tourmaline from Austria: structure, chemistry, optical spectra, and relations to synthetic solid solutions Sample BT from Eibenstein an der Thaya, Lower Austria
American Mineralogist, 2003, 88, 1369-1376
9003068 CIFAl7.407 B3 Ca0.032 Fe0.018 H3 K0.004 Li0.483 Mn1.143 Na0.773 O31 Si5.826 Ti0.006R 3 m :H15.941; 15.941; 7.136
90; 90; 120
1570.42Ertl, A.; Hughes, J. M.; Prowatke, S.; Rossman, G. R.; London, D.; Fritz, E. A.
Mn-rich tourmaline from Austria: structure, chemistry, optical spectra, and relations to synthetic solid solutions Sample P6 from Eibenstein an der Thaya, Lower Austria
American Mineralogist, 2003, 88, 1369-1376
9003069 CIFMg1.996 O4 SiF d -3 m :28.0633; 8.0633; 8.0633
90; 90; 90
524.25Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: Ringby4
American Mineralogist, 2003, 88, 1402-1407
9003070 CIFMg1.944 O4 Si0.994F d -3 m :28.0682; 8.0682; 8.0682
90; 90; 90
525.206Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: Ringby2
American Mineralogist, 2003, 88, 1402-1407
9003071 CIFMg1.946 O4 SiF d -3 m :28.0687; 8.0687; 8.0687
90; 90; 90
525.304Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: Ringby5
American Mineralogist, 2003, 88, 1402-1407
9003072 CIFFe0.206 Mg1.708 O4 Si0.995F d -3 m :28.09027; 8.09027; 8.09027
90; 90; 90
529.528Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: SZ0107
American Mineralogist, 2003, 88, 1402-1407
9003073 CIFFe0.216 Mg1.738 O4 SiF d -3 m :28.0904; 8.0904; 8.0904
90; 90; 90
529.554Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: SZ0002
American Mineralogist, 2003, 88, 1402-1407
9003074 CIFFe0.23 Mg1.732 O4 SiF d -3 m :28.0944; 8.0944; 8.0944
90; 90; 90
530.34Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: SZ9901
American Mineralogist, 2003, 88, 1402-1407
9003075 CIFFe0.258 Mg1.664 O4 Si0.987F d -3 m :28.1053; 8.1053; 8.1053
90; 90; 90
532.485Smyth, J. R.; Holl, C. M.; Frost, D. J.; Jacobsen, S. D.; Langenhorst, F.; McCammon, C. A.
Structural systematics of hydrous ringwoodite and water in Earth's interior Sample: SZ0104
American Mineralogist, 2003, 88, 1402-1407
9003076 CIFFe H O2P b n m4.625; 9.99; 3.037
90; 90; 90
140.321Nagai, T.; Kagi, H.; Yamanaka, T.
Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 0 GPa
American Mineralogist, 2003, 88, 1423-1427
9003077 CIFFe H O2P b n m4.6152; 9.987; 3.0316
90; 90; 90
139.733Nagai, T.; Kagi, H.; Yamanaka, T.
Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 0.5 GPa
American Mineralogist, 2003, 88, 1423-1427
9003078 CIFFe H O2P b n m4.5692; 9.9428; 3.0163
90; 90; 90
137.032Nagai, T.; Kagi, H.; Yamanaka, T.
Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 2.8 GPa
American Mineralogist, 2003, 88, 1423-1427
9003079 CIFFe H O2P b n m4.5086; 9.8759; 2.991
90; 90; 90
133.179Nagai, T.; Kagi, H.; Yamanaka, T.
Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 6.3 GPa
American Mineralogist, 2003, 88, 1423-1427
9003080 CIFFe H O2P b n m4.4683; 9.8334; 2.9739
90; 90; 90
130.669Nagai, T.; Kagi, H.; Yamanaka, T.
Variation of hydrogen bonded O...O distances in goethite at high pressure Sample at P = 9.0 GPa
American Mineralogist, 2003, 88, 1423-1427
9003081 CIFAl2 H4 O9 Si2C 1 c 15.161; 8.96; 14.459
90; 96.77; 90
663.959Dera, P.; Prewitt, C. T.; Japel, S.; Bish, D. L.; Johnston, C. T.
Pressure-controlled polytypism in hydrous layered materials Sample: Low pressure dickite at P = 0.1 MPa
American Mineralogist, 2003, 88, 1428-1435
9003082 CIFAl2 H4 O9 Si2C 1 c 15.082; 8.757; 13.771
90; 89.6; 90
612.837Dera, P.; Prewitt, C. T.; Japel, S.; Bish, D. L.; Johnston, C. T.
Pressure-controlled polytypism in hydrous layered materials Sample: High pressure dickite at P = 4.1 GPa
American Mineralogist, 2003, 88, 1428-1435
9003083 CIFC D K O3P 1 21/a 115.192; 5.629; 3.7067
90; 104.538; 90
306.832Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B.
Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 0 GPa
American Mineralogist, 2003, 88, 1446-1451
9003084 CIFC D K O3P 1 21/a 115.103; 5.6152; 3.6963
90; 104.19; 90
303.905Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B.
Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 0.2 GPa
American Mineralogist, 2003, 88, 1446-1451
9003085 CIFC D K O3P 1 21/a 114.746; 5.555; 3.6452
90; 102.87; 90
291.092Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B.
Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 1.8 GPa
American Mineralogist, 2003, 88, 1446-1451
9003086 CIFC D K O3P 1 21/a 114.481; 5.51; 3.616
90; 101.94; 90
282.28Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B.
Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 2.3 GPa
American Mineralogist, 2003, 88, 1446-1451
9003087 CIFC D K O3P 1 21/a 114.379; 5.494; 3.609
90; 101.64; 90
279.241Kagi, H.; Nagai, T.; Loveday, J. S.; Wada, C.; Parise, J. B.
Pressure-induced phase transformation of kalicinite (KHCO3) at 2.8 GPa and local structural changes around hydrogen atoms Sample: at P = 2.5 GPa
American Mineralogist, 2003, 88, 1446-1451
9003088 CIFAl2 Ca0.2 O8 Si2 Sr0.8I -18.361; 12.973; 14.259
90.79; 115.55; 90.62
1395.01Benna, P.; Bruno, E.
Single-crystal in situ high-temperature structural investigation of the I-1 - I2/c phase transition in Ca0.2Sr0.8Al2Si2O8 feldspar T = 20 C
American Mineralogist, 2003, 88, 1532-1541
9003089 CIFAl2 Ca0.2 O8 Si2 Sr0.8I -18.367; 12.968; 14.266
90.68; 115.51; 90.54
1396.72Benna, P.; Bruno, E.
Single-crystal in situ high-temperature structural investigation of the I-1 - I2/c phase transition in Ca0.2Sr0.8Al2Si2O8 feldspar T = 200 C
American Mineralogist, 2003, 88, 1532-1541
9003090 CIFAl2 Ca0.2 O8 Si2 Sr0.8I -18.377; 12.971; 14.275
90.46; 115.49; 90.3
1400Benna, P.; Bruno, E.
Single-crystal in situ high-temperature structural investigation of the I-1 - I2/c phase transition in Ca0.2Sr0.8Al2Si2O8 feldspar T = 400 C
American Mineralogist, 2003, 88, 1532-1541
9003091 CIFAl2 Ca0.2 O8 Si2 Sr0.8I -18.379; 12.971; 14.278
90.11; 115.48; 90.06
1400.85Benna, P.; Bruno, E.
Single-crystal in situ high-temperature structural investigation of the I-1 - I2/c phase transition in Ca0.2Sr0.8Al2Si2O8 feldspar T = 500 C
American Mineralogist, 2003, 88, 1532-1541
9003092 CIFAl2 Ca0.2 O8 Si2 Sr0.8I 1 2/c 18.386; 12.97; 14.283
90; 115.46; 90
1402.64Benna, P.; Bruno, E.
Single-crystal in situ high-temperature structural investigation of the I-1 - I2/c phase transition in Ca0.2Sr0.8Al2Si2O8 feldspar T = 620 C
American Mineralogist, 2003, 88, 1532-1541
9003093 CIFH20 Mn6.88 O19.36 Zn1.405C 1 2/m 124.765; 2.8473; 9.559
90; 93.77; 90
672.579Post, J. E.; Heaney, P. J.; Cahill, C. L.; Finger, L. W.
Woodruffite: A new Mn oxide structure with 3x4 tunnels Sample: at T = 100 K
American Mineralogist, 2003, 88, 1697-1702
9003094 CIFFe H O9 Pb1.937 V1.912P 1 21/m 17.649; 6.101; 8.904
90; 112.23; 90
384.635Gonzalez del Tanago, J.; La Iglesia, A.; Rius, J.; Santin, S. F.
Calderonite, a new lead-iron-vanadate of the brackebuschite group
American Mineralogist, 2003, 88, 1703-1708
9003095 CIFAl0.048 Fe0.622 H2 Mg6.378 Na0.048 O24 Si7.96P n m n9.3553; 17.9308; 5.3117
90; 90; 90
891.027Konishi, H.; Groy, T. L.; Dodony, I.; Miyawaki, R.; Matsubara, S.; Buseck, P. R.
Crystal structure of protoanthophyllite: A new mineral from the Takese ultramafic complex, Japan
American Mineralogist, 2003, 88, 1718-1723
9003096 CIFAs8 S9P 1 2/c 19.942; 9.601; 9.178
90; 101.94; 90
857.115Bonazzi, P.; Bindi, L.; Popova, V.; Pratesi, G.; Menchetti, S.
Alacranite, As8S9: structural study of the holotype and re-assignment of the original chemical formula
American Mineralogist, 2003, 88, 1796-1800
9003097 CIFAl0.06 Ca1.12 Fe0.52 H2 K0.2 Mg4.46 Mn0.04 Na1.12 O24 Si7.96C 1 2/m 19.8787; 18.024; 5.2875
90; 104.377; 90
911.975Gunter, M. E.; Dyar, M. D.; Twamley, B.; Foit, F. F.; Cornelius, S.
Composition, Fe3+/Sum(Fe), and crystal structure of non-asbestiform and asbestiform amphiboles from Libby, Montana, U.S.A.
American Mineralogist, 2003, 88, 1970-1978
9003098 CIFAl4.251 Ca0.084 Fe0.06 K0.336 Mg1.94 O18 Si4.749P 6/m c c9.775; 9.775; 9.354
90; 90; 120
774.037Balassone, G.; Franco, E.; Mattia, C. A.; Puliti, R.
Indialite in xenolithic rocks from Somma-Vesuvius volcano (Southern Italy): Crystal chemistry and petrogenetic features
American Mineralogist, 2004, 89, 1-6
9003099 CIFAl H2 Li O7 Si2P 18.6121; 4.9579; 7.604
89.892; 114.423; 89.955
295.621Ferro, O.; Quartieri, S.; Vezzalini, G.; Ceriani, C.; Fois, E.; Gamba, A.; Cruciani, G.
Dehydration dynamics of bikitaite: I. In situ synchrotron powder X-ray diffraction study Sample: T = 30 C
American Mineralogist, 2004, 89, 94-101
9003100 CIFAl H2 Li O6.715 Si2P 18.614; 4.9721; 7.551
89.753; 114.273; 90.154
294.814Ferro, O.; Quartieri, S.; Vezzalini, G.; Ceriani, C.; Fois, E.; Gamba, A.; Cruciani, G.
Dehydration dynamics of bikitaite: I. In situ synchrotron powder X-ray diffraction study Sample: T = 280 C
American Mineralogist, 2004, 89, 94-101
9003101 CIFAl H2 Li O6.385 Si2P 18.6269; 4.9871; 7.5718
89.765; 114.097; 90.16
297.372Ferro, O.; Quartieri, S.; Vezzalini, G.; Ceriani, C.; Fois, E.; Gamba, A.; Cruciani, G.
Dehydration dynamics of bikitaite: I. In situ synchrotron powder X-ray diffraction study Sample: T = 400
American Mineralogist, 2004, 89, 94-101
9003102 CIFAl Li O6 Si2P 18.6274; 4.9898; 7.5729
89.737; 114.072; 90.169
297.651Ferro, O.; Quartieri, S.; Vezzalini, G.; Ceriani, C.; Fois, E.; Gamba, A.; Cruciani, G.
Dehydration dynamics of bikitaite: I. In situ synchrotron powder X-ray diffraction study Sample: T = 468
American Mineralogist, 2004, 89, 94-101
9003103 CIFH79 Mg48 O147 Si34P 1 m 143.505; 9.251; 7.263
90; 91.32; 90
2922.33Capitani, G.; Mellini, M.
The modulated crystal structure of antigorite: The m = 17 polysome
American Mineralogist, 2004, 89, 147-158
9003104 CIFAs1.68 Cu11.622 Hg0.198 S13 Sb2.32I -4 3 m10.331; 10.331; 10.331
90; 90; 90
1102.62Foit, F. F.; Hughes, J. M.
Structural variations in mercurian tetrahedrite Sample A2 from the Spring Creek Claims in Harney County, Oregon
American Mineralogist, 2004, 89, 159-163
9003105 CIFAs0.84 Cu11.28 Hg0.72 S13 Sb3.16I -4 3 m10.3794; 10.3794; 10.3794
90; 90; 90
1118.19Foit, F. F.; Hughes, J. M.
Structural variations in mercurian tetrahedrite Sample E3 from the Spring Creek Claims in Harney County, Oregon
American Mineralogist, 2004, 89, 159-163
9003106 CIFAs1.08 Cu11.28 Hg0.72 S13 Sb2.92I -4 3 m10.3777; 10.3777; 10.3777
90; 90; 90
1117.64Foit, F. F.; Hughes, J. M.
Structural variations in mercurian tetrahedrite Sample C2 from the Spring Creek Claims in Harney County, Oregon
American Mineralogist, 2004, 89, 159-163
9003107 CIFAs1.2 Cu10.71 Hg1.23 S13 Sb2.8I -4 3 m10.4033; 10.4033; 10.4033
90; 90; 90
1125.94Foit, F. F.; Hughes, J. M.
Structural variations in mercurian tetrahedrite Sample E5 from the Spring Creek Claims in Harney County, Oregon
American Mineralogist, 2004, 89, 159-163
9003108 CIFCa0.15 Mg1.85 O6 Si2P 1 21/c 19.646; 8.842; 5.201
90; 108.35; 90
421.037Nestola, F.; Tribaudino, M.; Ballaran, T. B.
High pressure behavior, transformation and crystal structure of synthetic iron-free pigeonite Sample: P = 0 GPa
American Mineralogist, 2004, 89, 189-196
9003109 CIFCa0.15 Mg1.85 O6 Si2P 1 21/c 19.546; 8.732; 5.149
90; 108.12; 90
407.913Nestola, F.; Tribaudino, M.; Ballaran, T. B.
High pressure behavior, transformation and crystal structure of synthetic iron-free pigeonite Sample: P = 2.6 GPa
American Mineralogist, 2004, 89, 189-196
9003110 CIFCa0.15 Mg1.85 O6 Si2P 1 21/c 19.523; 8.7; 5.136
90; 107.8; 90
405.148Nestola, F.; Tribaudino, M.; Ballaran, T. B.
High pressure behavior, transformation and crystal structure of synthetic iron-free pigeonite Sample: P = 4.5 GPa
American Mineralogist, 2004, 89, 189-196
9003111 CIFCa0.15 Mg1.85 O6 Si2C 1 2/c 19.291; 8.679; 4.963
90; 102.22; 90
391.132Nestola, F.; Tribaudino, M.; Ballaran, T. B.
High pressure behavior, transformation and crystal structure of synthetic iron-free pigeonite Sample: P = 6.2 GPa
American Mineralogist, 2004, 89, 189-196
9003112 CIFCl KF m -3 m6.2879; 6.2879; 6.2879
90; 90; 90
248.609Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515031, T = 25 C, P = 0.0 kbar, cell volume = 248.61 ang**3
American Mineralogist, 2004, 89, 204-210
9003113 CIFCl KF m -3 m6.2987; 6.2987; 6.2987
90; 90; 90
249.892Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57689, T = 36 C, P = 0.4 kbar, cell volume = 249.89 ang**3
American Mineralogist, 2004, 89, 204-210
9003114 CIFCl KF m -3 m6.3122; 6.3122; 6.3122
90; 90; 90
251.502Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515032, T = 100 C, P = 0.0 kbar, cell volume = 251.50 ang**3
American Mineralogist, 2004, 89, 204-210
9003115 CIFCl KF m -3 m6.2843; 6.2843; 6.2843
90; 90; 90
248.182Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57797, T = 100 C, P = 1.9 kbar, cell volume = 248.18 ang**3
American Mineralogist, 2004, 89, 204-210
9003116 CIFCl KF m -3 m6.261; 6.261; 6.261
90; 90; 90
245.432Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57761, T = 100 C, P = 3.9 kbar, cell volume = 245.43 ang**3
American Mineralogist, 2004, 89, 204-210
9003117 CIFCl KF m -3 m6.2137; 6.2137; 6.2137
90; 90; 90
239.911Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57749, T = 100 C, P = 8.6 kbar, cell volume = 239.91 ang**3
American Mineralogist, 2004, 89, 204-210
9003118 CIFCl KF m -3 m6.1573; 6.1573; 6.1573
90; 90; 90
233.438Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57701, T = 100 C, P = 15.0 kbar, cell volume = 233.44 ang**3
American Mineralogist, 2004, 89, 204-210
9003119 CIFCl KF m -3 m6.3361; 6.3361; 6.3361
90; 90; 90
254.37Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515033, T = 200 C, P = 0.0 kbar, cell volume = 254.37 ang**3
American Mineralogist, 2004, 89, 204-210
9003120 CIFCl KF m -3 m6.2849; 6.2849; 6.2849
90; 90; 90
248.253Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57793, T = 200 C, P = 3.1 kbar, cell volume = 248.25 ang**3
American Mineralogist, 2004, 89, 204-210
9003121 CIFCl KF m -3 m6.2593; 6.2593; 6.2593
90; 90; 90
245.232Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57765, T = 200 C, P = 5.5 kbar, cell volume = 245.23 ang**3
American Mineralogist, 2004, 89, 204-210
9003122 CIFCl KF m -3 m6.2187; 6.2187; 6.2187
90; 90; 90
240.491Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57745, T = 200 C, P = 10.2 kbar, cell volume = 240.49 ang**3
American Mineralogist, 2004, 89, 204-210
9003123 CIFCl KF m -3 m6.1671; 6.1671; 6.1671
90; 90; 90
234.554Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57705, T = 200 C, P = 15.7 kbar, cell volume = 234.55 ang**3
American Mineralogist, 2004, 89, 204-210
9003124 CIFCl KF m -3 m6.363; 6.363; 6.363
90; 90; 90
257.624Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515034, T = 300 C, P = 0.0 kbar, cell volume = 257.62 ang**3
American Mineralogist, 2004, 89, 204-210
9003125 CIFCl KF m -3 m6.2682; 6.2682; 6.2682
90; 90; 90
246.28Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57769, T = 300 C, P = 6.7 kbar, cell volume = 246.28 ang**3
American Mineralogist, 2004, 89, 204-210
9003126 CIFCl KF m -3 m6.2084; 6.2084; 6.2084
90; 90; 90
239.298Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57741, T = 300 C, P = 11.7 kbar, cell volume = 239.30 ang**3
American Mineralogist, 2004, 89, 204-210
9003127 CIFCl KF m -3 m6.1835; 6.1835; 6.1835
90; 90; 90
236.43Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57709, T = 300 C, P = 16.2 kbar, cell volume = 236.43 ang**3
American Mineralogist, 2004, 89, 204-210
9003128 CIFCl KF m -3 m6.3884; 6.3884; 6.3884
90; 90; 90
260.721Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515035, T = 400 C, P = 0.0 kbar, cell volume = 260.72 ang**3
American Mineralogist, 2004, 89, 204-210
9003129 CIFCl KF m -3 m6.3012; 6.3012; 6.3012
90; 90; 90
250.19Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57789, T = 400 C, P = 6.1 kbar, cell volume = 250.19 ang**3
American Mineralogist, 2004, 89, 204-210
9003130 CIFCl KF m -3 m6.2796; 6.2796; 6.2796
90; 90; 90
247.626Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57773, T = 400 C, P = 8.6 kbar, cell volume = 247.63 ang**3
American Mineralogist, 2004, 89, 204-210
9003131 CIFCl KF m -3 m6.2232; 6.2232; 6.2232
90; 90; 90
241.013Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57737, T = 400 C, P = 13.4 kbar, cell volume = 241.01 ang**3
American Mineralogist, 2004, 89, 204-210
9003132 CIFCl KF m -3 m6.1982; 6.1982; 6.1982
90; 90; 90
238.12Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57713, T = 400 C, P = 16.5 kbar, cell volume = 238.12 ang**3
American Mineralogist, 2004, 89, 204-210
9003133 CIFCl KF m -3 m6.422; 6.422; 6.422
90; 90; 90
264.857Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515036, T = 500 C, P = 0.0 kbar, cell volume = 264.86 ang**3
American Mineralogist, 2004, 89, 204-210
9003134 CIFCl KF m -3 m6.286; 6.286; 6.286
90; 90; 90
248.384Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57777, T = 500 C, P = 8.9 kbar, cell volume = 248.38 ang**3
American Mineralogist, 2004, 89, 204-210
9003135 CIFCl KF m -3 m6.2289; 6.2289; 6.2289
90; 90; 90
241.676Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57733, T = 500 C, P = 15.0 kbar, cell volume = 241.68 ang**3
American Mineralogist, 2004, 89, 204-210
9003136 CIFCl KF m -3 m6.2126; 6.2126; 6.2126
90; 90; 90
239.784Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57717, T = 500 C, P = 17.1 kbar, cell volume = 239.78 ang**3
American Mineralogist, 2004, 89, 204-210
9003137 CIFCl KF m -3 m6.4644; 6.4644; 6.4644
90; 90; 90
270.137Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: msl515037, T = 600 C, P = 0.0 kbar, cell volume = 270.14 ang**3
American Mineralogist, 2004, 89, 204-210
9003138 CIFCl KF m -3 m6.3092; 6.3092; 6.3092
90; 90; 90
251.144Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57781, T = 600 C, P = 9.9 kbar, cell volume = 251.14 ang**3
American Mineralogist, 2004, 89, 204-210
9003139 CIFCl KF m -3 m6.2341; 6.2341; 6.2341
90; 90; 90
242.282Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57721, T = 600 C, P = 17.3 kbar, cell volume = 242.28 ang**3
American Mineralogist, 2004, 89, 204-210
9003140 CIFCl KF m -3 m6.2282; 6.2282; 6.2282
90; 90; 90
241.595Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57725, T = 600 C, P = 17.3 kbar, cell volume = 241.59 ang**3
American Mineralogist, 2004, 89, 204-210
9003141 CIFCl K0.9 Na0.1F m -3 m6.2347; 6.2347; 6.2347
90; 90; 90
242.352Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 242.35 ang**3
American Mineralogist, 2004, 89, 204-210
9003142 CIFCl K0.9 Na0.1F m -3 m6.3654; 6.3654; 6.3654
90; 90; 90
257.915Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als3k90, T = 500 C, P = 0.0 kbar, cell volume = 257.91 ang**3
American Mineralogist, 2004, 89, 204-210
9003143 CIFCl K0.9 Na0.1F m -3 m6.4028; 6.4028; 6.4028
90; 90; 90
262.488Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als2k90, T = 600 C, P = 0.0 kbar, cell volume = 262.49 ang**3
American Mineralogist, 2004, 89, 204-210
9003144 CIFCl K0.8 Na0.2F m -3 m6.1839; 6.1839; 6.1839
90; 90; 90
236.476Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 23 C, P = 0.0 kbar, cell volume = 236.48 ang**3
American Mineralogist, 2004, 89, 204-210
9003145 CIFCl K0.8 Na0.2F m -3 m6.2517; 6.2517; 6.2517
90; 90; 90
244.34Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als11k80, T = 300 C, P = 0.0 kbar, cell volume = 244.34 ang**3
American Mineralogist, 2004, 89, 204-210
9003146 CIFCl K0.8 Na0.2F m -3 m6.21; 6.21; 6.21
90; 90; 90
239.483Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55633, T = 300 C, P = 3.6 kbar, cell volume = 239.48 ang**3
American Mineralogist, 2004, 89, 204-210
9003147 CIFCl K0.8 Na0.2F m -3 m6.2644; 6.2644; 6.2644
90; 90; 90
245.832Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als10k80, T = 350 C, P = 0.0 kbar, cell volume = 245.83 ang**3
American Mineralogist, 2004, 89, 204-210
9003148 CIFCl K0.8 Na0.2F m -3 m6.076; 6.076; 6.076
90; 90; 90
224.312Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55501, T = 350 C, P = 17.2 kbar, cell volume = 224.31 ang**3
American Mineralogist, 2004, 89, 204-210
9003149 CIFCl K0.8 Na0.2F m -3 m6.278; 6.278; 6.278
90; 90; 90
247.437Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als9k80, T = 400 C, P = 0.0 kbar, cell volume = 247.44 ang**3
American Mineralogist, 2004, 89, 204-210
9003150 CIFCl K0.8 Na0.2F m -3 m6.2169; 6.2169; 6.2169
90; 90; 90
240.282Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55629, T = 400 C, P = 5.2 kbar, cell volume = 240.28 ang**3
American Mineralogist, 2004, 89, 204-210
9003151 CIFCl K0.8 Na0.2F m -3 m6.0757; 6.0757; 6.0757
90; 90; 90
224.279Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55493, T = 450 C, P = 19.0 kbar, cell volume = 224.28 ang**3
American Mineralogist, 2004, 89, 204-210
9003152 CIFCl K0.8 Na0.2F m -3 m6.1674; 6.1674; 6.1674
90; 90; 90
234.588Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53261, T = 475 C, P = 12.1 kbar, cell volume = 234.59 ang**3
American Mineralogist, 2004, 89, 204-210
9003153 CIFCl K0.8 Na0.2F m -3 m6.3108; 6.3108; 6.3108
90; 90; 90
251.335Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als7k80, T = 500 C, P = 0.0 kbar, cell volume = 251.33 ang**3
American Mineralogist, 2004, 89, 204-210
9003154 CIFCl K0.8 Na0.2F m -3 m6.2263; 6.2263; 6.2263
90; 90; 90
241.374Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55617, T = 500 C, P = 7.0 kbar, cell volume = 241.37 ang**3
American Mineralogist, 2004, 89, 204-210
9003155 CIFCl K0.8 Na0.2F m -3 m6.1884; 6.1884; 6.1884
90; 90; 90
236.993Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55577, T = 500 C, P = 9.6 kbar, cell volume = 236.99 ang**3
American Mineralogist, 2004, 89, 204-210
9003156 CIFCl K0.8 Na0.2F m -3 m6.1696; 6.1696; 6.1696
90; 90; 90
234.839Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53253, T = 500 C, P = 12.3 kbar, cell volume = 234.84 ang**3
American Mineralogist, 2004, 89, 204-210
9003157 CIFCl K0.8 Na0.2F m -3 m6.1321; 6.1321; 6.1321
90; 90; 90
230.583Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55377, T = 500 C, P = 15.0 kbar, cell volume = 230.58 ang**3
American Mineralogist, 2004, 89, 204-210
9003158 CIFCl K0.8 Na0.2F m -3 m6.1188; 6.1188; 6.1188
90; 90; 90
229.086Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53197, T = 500 C, P = 18.0 kbar, cell volume = 229.09 ang**3
American Mineralogist, 2004, 89, 204-210
9003159 CIFCl K0.8 Na0.2F m -3 m6.3272; 6.3272; 6.3272
90; 90; 90
253.3Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als6k80, T = 550 C, P = 0.0 kbar, cell volume = 253.30 ang**3
American Mineralogist, 2004, 89, 204-210
9003160 CIFCl K0.8 Na0.2F m -3 m6.1999; 6.1999; 6.1999
90; 90; 90
238.316Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55589, T = 550 C, P = 10.1 kbar, cell volume = 238.32 ang**3
American Mineralogist, 2004, 89, 204-210
9003161 CIFCl K0.8 Na0.2F m -3 m6.1709; 6.1709; 6.1709
90; 90; 90
234.988Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53249, T = 550 C, P = 13.3 kbar, cell volume = 234.99 ang**3
American Mineralogist, 2004, 89, 204-210
9003162 CIFCl K0.8 Na0.2F m -3 m6.1348; 6.1348; 6.1348
90; 90; 90
230.888Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55373, T = 550 C, P = 16.0 kbar, cell volume = 230.89 ang**3
American Mineralogist, 2004, 89, 204-210
9003163 CIFCl K0.8 Na0.2F m -3 m6.1224; 6.1224; 6.1224
90; 90; 90
229.491Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53201, T = 550 C, P = 18.1 kbar, cell volume = 229.49 ang**3
American Mineralogist, 2004, 89, 204-210
9003164 CIFCl K0.8 Na0.2F m -3 m6.3484; 6.3484; 6.3484
90; 90; 90
255.854Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als5k80, T = 600 C, P = 0.0 kbar, cell volume = 255.85 ang**3
American Mineralogist, 2004, 89, 204-210
9003165 CIFCl K0.8 Na0.2F m -3 m6.2049; 6.2049; 6.2049
90; 90; 90
238.894Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55593, T = 600 C, P = 7.5 kbar, cell volume = 238.89 ang**3
American Mineralogist, 2004, 89, 204-210
9003166 CIFCl K0.8 Na0.2F m -3 m6.2268; 6.2268; 6.2268
90; 90; 90
241.432Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55613, T = 600 C, P = 7.5 kbar, cell volume = 241.43 ang**3
American Mineralogist, 2004, 89, 204-210
9003167 CIFCl K0.8 Na0.2F m -3 m6.1756; 6.1756; 6.1756
90; 90; 90
235.525Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53237, T = 600 C, P = 14.0 kbar, cell volume = 235.53 ang**3
American Mineralogist, 2004, 89, 204-210
9003168 CIFCl K0.8 Na0.2F m -3 m6.1371; 6.1371; 6.1371
90; 90; 90
231.148Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55369, T = 600 C, P = 17.0 kbar, cell volume = 231.15 ang**3
American Mineralogist, 2004, 89, 204-210
9003169 CIFCl K0.8 Na0.2F m -3 m6.13; 6.13; 6.13
90; 90; 90
230.346Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53205, T = 600 C, P = 18.1 kbar, cell volume = 230.35 ang**3
American Mineralogist, 2004, 89, 204-210
9003170 CIFCl K0.8 Na0.2F m -3 m6.3651; 6.3651; 6.3651
90; 90; 90
257.879Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als3k80, T = 650 C, P = 0.0 kbar, cell volume = 257.88 ang**3
American Mineralogist, 2004, 89, 204-210
9003171 CIFCl K0.8 Na0.2F m -3 m6.3714; 6.3714; 6.3714
90; 90; 90
258.645Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als4k80, T = 650 C, P = 0.0 kbar, cell volume = 258.64 ang**3
American Mineralogist, 2004, 89, 204-210
9003172 CIFCl K0.8 Na0.2F m -3 m6.217; 6.217; 6.217
90; 90; 90
240.294Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55597, T = 650 C, P = 7.7 kbar, cell volume = 240.29 ang**3
American Mineralogist, 2004, 89, 204-210
9003173 CIFCl K0.8 Na0.2F m -3 m6.1804; 6.1804; 6.1804
90; 90; 90
236.075Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53233, T = 650 C, P = 14.6 kbar, cell volume = 236.07 ang**3
American Mineralogist, 2004, 89, 204-210
9003174 CIFCl K0.8 Na0.2F m -3 m6.1441; 6.1441; 6.1441
90; 90; 90
231.94Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53217, T = 650 C, P = 18.6 kbar, cell volume = 231.94 ang**3
American Mineralogist, 2004, 89, 204-210
9003175 CIFCl K0.8 Na0.2F m -3 m6.2264; 6.2264; 6.2264
90; 90; 90
241.385Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55601, T = 700 C, P = 8.0 kbar, cell volume = 241.39 ang**3
American Mineralogist, 2004, 89, 204-210
9003176 CIFCl K0.8 Na0.2F m -3 m6.1781; 6.1781; 6.1781
90; 90; 90
235.811Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53221, T = 700 C, P = 15.6 kbar, cell volume = 235.81 ang**3
American Mineralogist, 2004, 89, 204-210
9003177 CIFCl K0.8 Na0.2F m -3 m6.1421; 6.1421; 6.1421
90; 90; 90
231.713Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r55365, T = 700 C, P = 19.0 kbar, cell volume = 231.71 ang**3
American Mineralogist, 2004, 89, 204-210
9003178 CIFCl K0.7 Na0.3F m -3 m6.1161; 6.1161; 6.1161
90; 90; 90
228.783Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 228.78 ang**3
American Mineralogist, 2004, 89, 204-210
9003179 CIFCl K0.7 Na0.3F m -3 m6.2559; 6.2559; 6.2559
90; 90; 90
244.833Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als4k70, T = 500 C, P = 0.0 kbar, cell volume = 244.83 ang**3
American Mineralogist, 2004, 89, 204-210
9003180 CIFCl K0.7 Na0.3F m -3 m6.2763; 6.2763; 6.2763
90; 90; 90
247.236Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als3k70, T = 550 C, P = 0.0 kbar, cell volume = 247.23 ang**3
American Mineralogist, 2004, 89, 204-210
9003181 CIFCl K0.7 Na0.3F m -3 m6.2962; 6.2962; 6.2962
90; 90; 90
249.595Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als2k70, T = 600 C, P = 0.0 kbar, cell volume = 249.59 ang**3
American Mineralogist, 2004, 89, 204-210
9003182 CIFCl K0.7 Na0.3F m -3 m6.3194; 6.3194; 6.3194
90; 90; 90
252.364Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als1k70, T = 650 C, P = 0.0 kbar, cell volume = 252.36 ang**3
American Mineralogist, 2004, 89, 204-210
9003183 CIFCl K0.6 Na0.4F m -3 m6.0541; 6.0541; 6.0541
90; 90; 90
221.896Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 221.90 ang**3
American Mineralogist, 2004, 89, 204-210
9003184 CIFCl K0.6 Na0.4F m -3 m6.0023; 6.0023; 6.0023
90; 90; 90
216.248Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54811, T = 400 C, P = 15.0 kbar, cell volume = 216.25 ang**3
American Mineralogist, 2004, 89, 204-210
9003185 CIFCl K0.6 Na0.4F m -3 m6.0684; 6.0684; 6.0684
90; 90; 90
223.472Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54935, T = 450 C, P = 8.8 kbar, cell volume = 223.47 ang**3
American Mineralogist, 2004, 89, 204-210
9003186 CIFCl K0.6 Na0.4F m -3 m6.069; 6.069; 6.069
90; 90; 90
223.538Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54883, T = 450 C, P = 8.9 kbar, cell volume = 223.54 ang**3
American Mineralogist, 2004, 89, 204-210
9003187 CIFCl K0.6 Na0.4F m -3 m6.0041; 6.0041; 6.0041
90; 90; 90
216.443Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54807, T = 450 C, P = 15.7 kbar, cell volume = 216.44 ang**3
American Mineralogist, 2004, 89, 204-210
9003188 CIFCl K0.6 Na0.4F m -3 m6.1957; 6.1957; 6.1957
90; 90; 90
237.832Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als13k60, T = 500 C, P = 0.0 kbar, cell volume = 237.83 ang**3
American Mineralogist, 2004, 89, 204-210
9003189 CIFCl K0.6 Na0.4F m -3 m6.0687; 6.0687; 6.0687
90; 90; 90
223.505Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54907, T = 500 C, P = 9.8 kbar, cell volume = 223.50 ang**3
American Mineralogist, 2004, 89, 204-210
9003190 CIFCl K0.6 Na0.4F m -3 m6.0731; 6.0731; 6.0731
90; 90; 90
223.991Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54927, T = 500 C, P = 9.8 kbar, cell volume = 223.99 ang**3
American Mineralogist, 2004, 89, 204-210
9003191 CIFCl K0.6 Na0.4F m -3 m6.0724; 6.0724; 6.0724
90; 90; 90
223.914Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54879, T = 500 C, P = 10.1 kbar, cell volume = 223.91 ang**3
American Mineralogist, 2004, 89, 204-210
9003192 CIFCl K0.6 Na0.4F m -3 m6.0448; 6.0448; 6.0448
90; 90; 90
220.875Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r52113, T = 500 C, P = 11.9 kbar, cell volume = 220.87 ang**3
American Mineralogist, 2004, 89, 204-210
9003193 CIFCl K0.6 Na0.4F m -3 m6.0066; 6.0066; 6.0066
90; 90; 90
216.714Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54803, T = 500 C, P = 16.5 kbar, cell volume = 216.71 ang**3
American Mineralogist, 2004, 89, 204-210
9003194 CIFCl K0.6 Na0.4F m -3 m6.216; 6.216; 6.216
90; 90; 90
240.178Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als12k60, T = 550 C, P = 0.0 kbar, cell volume = 240.18 ang**3
American Mineralogist, 2004, 89, 204-210
9003195 CIFCl K0.6 Na0.4F m -3 m6.0785; 6.0785; 6.0785
90; 90; 90
224.589Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54875, T = 550 C, P = 11.2 kbar, cell volume = 224.59 ang**3
American Mineralogist, 2004, 89, 204-210
9003196 CIFCl K0.6 Na0.4F m -3 m6.0483; 6.0483; 6.0483
90; 90; 90
221.259Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r52105, T = 550 C, P = 12.6 kbar, cell volume = 221.26 ang**3
American Mineralogist, 2004, 89, 204-210
9003197 CIFCl K0.6 Na0.4F m -3 m6.0081; 6.0081; 6.0081
90; 90; 90
216.876Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54795, T = 550 C, P = 17.3 kbar, cell volume = 216.88 ang**3
American Mineralogist, 2004, 89, 204-210
9003198 CIFCl K0.6 Na0.4F m -3 m6.2395; 6.2395; 6.2395
90; 90; 90
242.912Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als11k60, T = 600 C, P = 0.0 kbar, cell volume = 242.91 ang**3
American Mineralogist, 2004, 89, 204-210
9003199 CIFCl K0.6 Na0.4F m -3 m6.2339; 6.2339; 6.2339
90; 90; 90
242.259Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als5k60, T = 600 C, P = 0.0 kbar, cell volume = 242.26 ang**3
American Mineralogist, 2004, 89, 204-210
9003200 CIFCl K0.6 Na0.4F m -3 m6.2355; 6.2355; 6.2355
90; 90; 90
242.445Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als6k60, T = 600 C, P = 0.0 kbar, cell volume = 242.45 ang**3
American Mineralogist, 2004, 89, 204-210
9003201 CIFCl K0.6 Na0.4F m -3 m6.0747; 6.0747; 6.0747
90; 90; 90
224.168Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54911, T = 600 C, P = 11.5 kbar, cell volume = 224.17 ang**3
American Mineralogist, 2004, 89, 204-210
9003202 CIFCl K0.6 Na0.4F m -3 m6.0691; 6.0691; 6.0691
90; 90; 90
223.549Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54863, T = 600 C, P = 12.4 kbar, cell volume = 223.55 ang**3
American Mineralogist, 2004, 89, 204-210
9003203 CIFCl K0.6 Na0.4F m -3 m6.0385; 6.0385; 6.0385
90; 90; 90
220.185Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r52081, T = 600 C, P = 15.4 kbar, cell volume = 220.18 ang**3
American Mineralogist, 2004, 89, 204-210
9003204 CIFCl K0.6 Na0.4F m -3 m6.005; 6.005; 6.005
90; 90; 90
216.54Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54827, T = 600 C, P = 18.8 kbar, cell volume = 216.54 ang**3
American Mineralogist, 2004, 89, 204-210
9003205 CIFCl K0.6 Na0.4F m -3 m6.2601; 6.2601; 6.2601
90; 90; 90
245.326Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als9k60, T = 650 C, P = 0.0 kbar, cell volume = 245.33 ang**3
American Mineralogist, 2004, 89, 204-210
9003206 CIFCl K0.6 Na0.4F m -3 m6.26; 6.26; 6.26
90; 90; 90
245.314Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als7k60, T = 650 C, P = 0.0 kbar, cell volume = 245.31 ang**3
American Mineralogist, 2004, 89, 204-210
9003207 CIFCl K0.6 Na0.4F m -3 m6.2595; 6.2595; 6.2595
90; 90; 90
245.256Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als8k60, T = 650 C, P = 0.0 kbar, cell volume = 245.25 ang**3
American Mineralogist, 2004, 89, 204-210
9003208 CIFCl K0.6 Na0.4F m -3 m6.2626; 6.2626; 6.2626
90; 90; 90
245.62Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als10k60, T = 650 C, P = 0.0 kbar, cell volume = 245.62 ang**3
American Mineralogist, 2004, 89, 204-210
9003209 CIFCl K0.6 Na0.4F m -3 m6.0717; 6.0717; 6.0717
90; 90; 90
223.837Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54867, T = 650 C, P = 12.4 kbar, cell volume = 223.84 ang**3
American Mineralogist, 2004, 89, 204-210
9003210 CIFCl K0.6 Na0.4F m -3 m6.0427; 6.0427; 6.0427
90; 90; 90
220.644Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r52085, T = 650 C, P = 15.1 kbar, cell volume = 220.64 ang**3
American Mineralogist, 2004, 89, 204-210
9003211 CIFCl K0.6 Na0.4F m -3 m6.0042; 6.0042; 6.0042
90; 90; 90
216.454Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54835, T = 650 C, P = 19.6 kbar, cell volume = 216.45 ang**3
American Mineralogist, 2004, 89, 204-210
9003212 CIFCl K0.6 Na0.4F m -3 m6.0062; 6.0062; 6.0062
90; 90; 90
216.67Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54783, T = 650 C, P = 19.6 kbar, cell volume = 216.67 ang**3
American Mineralogist, 2004, 89, 204-210
9003213 CIFCl K0.6 Na0.4F m -3 m6.0873; 6.0873; 6.0873
90; 90; 90
225.566Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54871, T = 700 C, P = 12.4 kbar, cell volume = 225.57 ang**3
American Mineralogist, 2004, 89, 204-210
9003214 CIFCl K0.6 Na0.4F m -3 m6.0574; 6.0574; 6.0574
90; 90; 90
222.259Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r52097, T = 700 C, P = 15.3 kbar, cell volume = 222.26 ang**3
American Mineralogist, 2004, 89, 204-210
9003215 CIFCl K0.6 Na0.4F m -3 m6.0134; 6.0134; 6.0134
90; 90; 90
217.45Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54787, T = 700 C, P = 19.7 kbar, cell volume = 217.45 ang**3
American Mineralogist, 2004, 89, 204-210
9003216 CIFCl K0.5 Na0.5F m -3 m5.9904; 5.9904; 5.9904
90; 90; 90
214.965Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 214.96 ang**3
American Mineralogist, 2004, 89, 204-210
9003217 CIFCl K0.5 Na0.5F m -3 m6.1262; 6.1262; 6.1262
90; 90; 90
229.918Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als4k50, T = 500 C, P = 0.0 kbar, cell volume = 229.92 ang**3
American Mineralogist, 2004, 89, 204-210
9003218 CIFCl K0.5 Na0.5F m -3 m6.1449; 6.1449; 6.1449
90; 90; 90
232.03Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als3k50, T = 550 C, P = 0.0 kbar, cell volume = 232.03 ang**3
American Mineralogist, 2004, 89, 204-210
9003219 CIFCl K0.5 Na0.5F m -3 m6.166; 6.166; 6.166
90; 90; 90
234.429Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als2k50, T = 600 C, P = 0.0 kbar, cell volume = 234.43 ang**3
American Mineralogist, 2004, 89, 204-210
9003220 CIFCl K0.5 Na0.5F m -3 m6.1899; 6.1899; 6.1899
90; 90; 90
237.165Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als1k50, T = 650 C, P = 0.0 kbar, cell volume = 237.16 ang**3
American Mineralogist, 2004, 89, 204-210
9003221 CIFCl K0.4 Na0.6F m -3 m5.9246; 5.9246; 5.9246
90; 90; 90
207.959Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 207.96 ang**3
American Mineralogist, 2004, 89, 204-210
9003222 CIFCl K0.4 Na0.6F m -3 m5.8498; 5.8498; 5.8498
90; 90; 90
200.181Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54490, T = 400 C, P = 16.9 kbar, cell volume = 200.18 ang**3
American Mineralogist, 2004, 89, 204-210
9003223 CIFCl K0.4 Na0.6F m -3 m5.9672; 5.9672; 5.9672
90; 90; 90
212.477Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57084, T = 450 C, P = 7.6 kbar, cell volume = 212.48 ang**3
American Mineralogist, 2004, 89, 204-210
9003224 CIFCl K0.4 Na0.6F m -3 m5.8838; 5.8838; 5.8838
90; 90; 90
203.692Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57152, T = 450 C, P = 15.9 kbar, cell volume = 203.69 ang**3
American Mineralogist, 2004, 89, 204-210
9003225 CIFCl K0.4 Na0.6F m -3 m5.8475; 5.8475; 5.8475
90; 90; 90
199.945Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57212, T = 450 C, P = 20.6 kbar, cell volume = 199.95 ang**3
American Mineralogist, 2004, 89, 204-210
9003226 CIFCl K0.4 Na0.6F m -3 m6.0623; 6.0623; 6.0623
90; 90; 90
222.799Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als6k40, T = 500 C, P = 0.0 kbar, cell volume = 222.80 ang**3
American Mineralogist, 2004, 89, 204-210
9003227 CIFCl K0.4 Na0.6F m -3 m5.9715; 5.9715; 5.9715
90; 90; 90
212.937Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57080, T = 500 C, P = 8.6 kbar, cell volume = 212.94 ang**3
American Mineralogist, 2004, 89, 204-210
9003228 CIFCl K0.4 Na0.6F m -3 m5.9084; 5.9084; 5.9084
90; 90; 90
206.257Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54394, T = 500 C, P = 12.2 kbar, cell volume = 206.26 ang**3
American Mineralogist, 2004, 89, 204-210
9003229 CIFCl K0.4 Na0.6F m -3 m5.8863; 5.8863; 5.8863
90; 90; 90
203.952Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57148, T = 500 C, P = 16.9 kbar, cell volume = 203.95 ang**3
American Mineralogist, 2004, 89, 204-210
9003230 CIFCl K0.4 Na0.6F m -3 m5.8553; 5.8553; 5.8553
90; 90; 90
200.746Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54486, T = 500 C, P = 18.6 kbar, cell volume = 200.75 ang**3
American Mineralogist, 2004, 89, 204-210
9003231 CIFCl K0.4 Na0.6F m -3 m6.0833; 6.0833; 6.0833
90; 90; 90
225.122Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als5k40, T = 550 C, P = 0.0 kbar, cell volume = 225.12 ang**3
American Mineralogist, 2004, 89, 204-210
9003232 CIFCl K0.4 Na0.6F m -3 m5.9778; 5.9778; 5.9778
90; 90; 90
213.611Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57076, T = 550 C, P = 9.6 kbar, cell volume = 213.61 ang**3
American Mineralogist, 2004, 89, 204-210
9003233 CIFCl K0.4 Na0.6F m -3 m5.9123; 5.9123; 5.9123
90; 90; 90
206.666Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54390, T = 550 C, P = 13.2 kbar, cell volume = 206.67 ang**3
American Mineralogist, 2004, 89, 204-210
9003234 CIFCl K0.4 Na0.6F m -3 m5.8884; 5.8884; 5.8884
90; 90; 90
204.17Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57144, T = 550 C, P = 17.8 kbar, cell volume = 204.17 ang**3
American Mineralogist, 2004, 89, 204-210
9003235 CIFCl K0.4 Na0.6F m -3 m5.8515; 5.8515; 5.8515
90; 90; 90
200.356Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57204, T = 550 C, P = 22.9 kbar, cell volume = 200.36 ang**3
American Mineralogist, 2004, 89, 204-210
9003236 CIFCl K0.4 Na0.6F m -3 m6.1046; 6.1046; 6.1046
90; 90; 90
227.495Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als4k40, T = 600 C, P = 0.0 kbar, cell volume = 227.50 ang**3
American Mineralogist, 2004, 89, 204-210
9003237 CIFCl K0.4 Na0.6F m -3 m5.9146; 5.9146; 5.9146
90; 90; 90
206.907Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54382, T = 600 C, P = 14.1 kbar, cell volume = 206.91 ang**3
American Mineralogist, 2004, 89, 204-210
9003238 CIFCl K0.4 Na0.6F m -3 m5.9121; 5.9121; 5.9121
90; 90; 90
206.645Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54414, T = 600 C, P = 14.1 kbar, cell volume = 206.65 ang**3
American Mineralogist, 2004, 89, 204-210
9003239 CIFCl K0.4 Na0.6F m -3 m5.9108; 5.9108; 5.9108
90; 90; 90
206.509Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54426, T = 600 C, P = 14.1 kbar, cell volume = 206.51 ang**3
American Mineralogist, 2004, 89, 204-210
9003240 CIFCl K0.4 Na0.6F m -3 m5.8823; 5.8823; 5.8823
90; 90; 90
203.536Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53017, T = 600 C, P = 18.4 kbar, cell volume = 203.54 ang**3
American Mineralogist, 2004, 89, 204-210
9003241 CIFCl K0.4 Na0.6F m -3 m5.8598; 5.8598; 5.8598
90; 90; 90
201.209Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54482, T = 600 C, P = 20.4 kbar, cell volume = 201.21 ang**3
American Mineralogist, 2004, 89, 204-210
9003242 CIFCl K0.4 Na0.6F m -3 m5.8478; 5.8478; 5.8478
90; 90; 90
199.976Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54470, T = 600 C, P = 21.2 kbar, cell volume = 199.98 ang**3
American Mineralogist, 2004, 89, 204-210
9003243 CIFCl K0.4 Na0.6F m -3 m5.8843; 5.8843; 5.8843
90; 90; 90
203.744Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53021, T = 625 C, P = 18.3 kbar, cell volume = 203.74 ang**3
American Mineralogist, 2004, 89, 204-210
9003244 CIFCl K0.4 Na0.6F m -3 m6.1264; 6.1264; 6.1264
90; 90; 90
229.941Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als3k40, T = 650 C, P = 0.0 kbar, cell volume = 229.94 ang**3
American Mineralogist, 2004, 89, 204-210
9003245 CIFCl K0.4 Na0.6F m -3 m5.9911; 5.9911; 5.9911
90; 90; 90
215.04Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57068, T = 650 C, P = 11.5 kbar, cell volume = 215.04 ang**3
American Mineralogist, 2004, 89, 204-210
9003246 CIFCl K0.4 Na0.6F m -3 m5.9123; 5.9123; 5.9123
90; 90; 90
206.666Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54366, T = 650 C, P = 15.9 kbar, cell volume = 206.67 ang**3
American Mineralogist, 2004, 89, 204-210
9003247 CIFCl K0.4 Na0.6F m -3 m5.8919; 5.8919; 5.8919
90; 90; 90
204.534Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53025, T = 650 C, P = 18.2 kbar, cell volume = 204.53 ang**3
American Mineralogist, 2004, 89, 204-210
9003248 CIFCl K0.4 Na0.6F m -3 m5.8989; 5.8989; 5.8989
90; 90; 90
205.264Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57136, T = 650 C, P = 19.6 kbar, cell volume = 205.26 ang**3
American Mineralogist, 2004, 89, 204-210
9003249 CIFCl K0.4 Na0.6F m -3 m5.8552; 5.8552; 5.8552
90; 90; 90
200.736Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57196, T = 650 C, P = 25.2 kbar, cell volume = 200.74 ang**3
American Mineralogist, 2004, 89, 204-210
9003250 CIFCl K0.4 Na0.6F m -3 m5.8954; 5.8954; 5.8954
90; 90; 90
204.899Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53029, T = 675 C, P = 18.1 kbar, cell volume = 204.90 ang**3
American Mineralogist, 2004, 89, 204-210
9003251 CIFCl K0.4 Na0.6F m -3 m5.9961; 5.9961; 5.9961
90; 90; 90
215.579Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57064, T = 700 C, P = 12.5 kbar, cell volume = 215.58 ang**3
American Mineralogist, 2004, 89, 204-210
9003252 CIFCl K0.4 Na0.6F m -3 m5.9237; 5.9237; 5.9237
90; 90; 90
207.864Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54370, T = 700 C, P = 16.0 kbar, cell volume = 207.86 ang**3
American Mineralogist, 2004, 89, 204-210
9003253 CIFCl K0.4 Na0.6F m -3 m5.9237; 5.9237; 5.9237
90; 90; 90
207.864Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53053, T = 700 C, P = 16.3 kbar, cell volume = 207.86 ang**3
American Mineralogist, 2004, 89, 204-210
9003254 CIFCl K0.4 Na0.6F m -3 m5.9111; 5.9111; 5.9111
90; 90; 90
206.54Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53041, T = 700 C, P = 18.0 kbar, cell volume = 206.54 ang**3
American Mineralogist, 2004, 89, 204-210
9003255 CIFCl K0.4 Na0.6F m -3 m5.8999; 5.8999; 5.8999
90; 90; 90
205.369Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57132, T = 700 C, P = 20.6 kbar, cell volume = 205.37 ang**3
American Mineralogist, 2004, 89, 204-210
9003256 CIFCl K0.4 Na0.6F m -3 m5.8655; 5.8655; 5.8655
90; 90; 90
201.797Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r54474, T = 700 C, P = 22.1 kbar, cell volume = 201.80 ang**3
American Mineralogist, 2004, 89, 204-210
9003257 CIFCl K0.4 Na0.6F m -3 m5.8566; 5.8566; 5.8566
90; 90; 90
200.88Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r57240, T = 700 C, P = 26.0 kbar, cell volume = 200.88 ang**3
American Mineralogist, 2004, 89, 204-210
9003258 CIFCl K0.4 Na0.6F m -3 m5.9236; 5.9236; 5.9236
90; 90; 90
207.853Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r53049, T = 750 C, P = 17.2 kbar, cell volume = 207.85 ang**3
American Mineralogist, 2004, 89, 204-210
9003259 CIFCl K0.3 Na0.7F m -3 m5.8568; 5.8568; 5.8568
90; 90; 90
200.901Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 200.90 ang**3
American Mineralogist, 2004, 89, 204-210
9003260 CIFCl K0.3 Na0.7F m -3 m5.9915; 5.9915; 5.9915
90; 90; 90
215.083Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als6k30, T = 508 C, P = 0.0 kbar, cell volume = 215.08 ang**3
American Mineralogist, 2004, 89, 204-210
9003261 CIFCl K0.3 Na0.7F m -3 m6.0103; 6.0103; 6.0103
90; 90; 90
217.114Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als5k30, T = 550 C, P = 0.0 kbar, cell volume = 217.11 ang**3
American Mineralogist, 2004, 89, 204-210
9003262 CIFCl K0.3 Na0.7F m -3 m6.031; 6.031; 6.031
90; 90; 90
219.365Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als4k30, T = 600 C, P = 0.0 kbar, cell volume = 219.37 ang**3
American Mineralogist, 2004, 89, 204-210
9003263 CIFCl K0.3 Na0.7F m -3 m6.0524; 6.0524; 6.0524
90; 90; 90
221.709Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: als3k30, T = 650 C, P = 0.0 kbar, cell volume = 221.71 ang**3
American Mineralogist, 2004, 89, 204-210
9003264 CIFCl K0.2 Na0.8F m -3 m5.7868; 5.7868; 5.7868
90; 90; 90
193.783Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: b&w, T = 25 C, P = 0.0 kbar, cell volume = 193.78 ang**3
American Mineralogist, 2004, 89, 204-210
9003265 CIFCl K0.2 Na0.8F m -3 m5.763; 5.763; 5.763
90; 90; 90
191.402Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r56329, T = 350 C, P = 11.8 kbar, cell volume = 191.40 ang**3
American Mineralogist, 2004, 89, 204-210
9003266 CIFCl K0.2 Na0.8F m -3 m5.7615; 5.7615; 5.7615
90; 90; 90
191.252Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r56361, T = 350 C, P = 12.4 kbar, cell volume = 191.25 ang**3
American Mineralogist, 2004, 89, 204-210
9003267 CIFCl K0.2 Na0.8F m -3 m5.6958; 5.6958; 5.6958
90; 90; 90
184.784Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r56417, T = 350 C, P = 21.0 kbar, cell volume = 184.78 ang**3
American Mineralogist, 2004, 89, 204-210
9003268 CIFCl K0.2 Na0.8F m -3 m5.7676; 5.7676; 5.7676
90; 90; 90
191.86Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r56325, T = 400 C, P = 12.6 kbar, cell volume = 191.86 ang**3
American Mineralogist, 2004, 89, 204-210
9003269 CIFCl K0.2 Na0.8F m -3 m5.6981; 5.6981; 5.6981
90; 90; 90
185.008Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r56413, T = 400 C, P = 21.9 kbar, cell volume = 185.01 ang**3
American Mineralogist, 2004, 89, 204-210
9003270 CIFCl K0.2 Na0.8F m -3 m5.7714; 5.7714; 5.7714
90; 90; 90
192.24Walker, D.; Verma, P. K.; Cranswick, L. M. D.; Jones, R. L.; Clark, S. M.; Buhre, S.
Halite-sylvite thermoelasticity Sample: r56321, T = 450 C, P = 13.4 kbar, cell volume = 192.24 ang**3
American Mineralogist, 2004, 89, 204-210

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