Structures by: Thompson R. M.
Total: 171
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.73770Å b=8.91510Å c=5.24940Å
α=90.00000° β=105.85100° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.68080Å b=8.84880Å c=5.21800Å
α=90.00000° β=105.60600° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.63410Å b=8.79480Å c=5.19260Å
α=90.00000° β=105.42100° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.61350Å b=8.76950Å c=5.18130Å
α=90.00000° β=105.33700° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.57310Å b=8.71970Å c=5.15800Å
α=90.00000° β=105.20300° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.55570Å b=8.69510Å c=5.14740Å
α=90.00000° β=105.14800° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.53910Å b=8.67520Å c=5.13850Å
α=90.00000° β=105.10600° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.52700Å b=8.65870Å c=5.13060Å
α=90.00000° β=105.06700° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.73970Å b=8.91740Å c=5.25030Å
α=90.00000° β=105.86600° γ=90.00000°
Diopside
CaMgO6Si2
American Mineralogist (2008) 93, 177-186
a=9.51640Å b=8.64490Å c=5.12460Å
α=90.00000° β=105.03300° γ=90.00000°
Eakerite
Al2H2O20Si6Sn,2(H2O),2(Ca)
Acta Crystallographica Section E (2007) 63, 2 i47-i49
a=15.8202(5)Å b=7.6963(3)Å c=7.4449(3)Å
α=90.00° β=101.293(2)° γ=90.00°
Durangite
Al0.91AsF0.73Fe0.09H0.27Li0.05Na0.95O4.27
Acta Crystallographica Section E (2012) 68, 11 i86-i87
a=6.5789(5)Å b=8.5071(6)Å c=7.0212(5)Å
α=90.00° β=115.447(4)° γ=90.00°
Markascherite
Cu3H8MoO8
American Mineralogist (2012) 97, 197-202
a=9.9904Å b=5.9934Å c=5.5255Å
α=90° β=97.428° γ=90°
Bobdownsite
Al0.04Ca9F0.84H0.16Mg0.96O27.16P6.97
The Canadian Mineralogist (2011) 49, 1065-1078
a=10.3394Å b=10.3394Å c=37.0836Å
α=90° β=90° γ=120°
Whitlockite
Al0.02Ca9Fe0.35HMg0.62Mn0.02O28P7
The Canadian Mineralogist (2011) 49, 1065-1078
a=10.3590Å b=10.3590Å c=37.0857Å
α=90° β=90° γ=120°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.6539Å b=8.7928Å c=5.2935Å
α=90° β=107.436° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.6067Å b=8.7501Å c=5.2698Å
α=90° β=107.258° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.5667Å b=8.7128Å c=5.2484Å
α=90° β=107.095° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.5148Å b=8.6568Å c=5.2188Å
α=90° β=106.844° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.4711Å b=8.6068Å c=5.1915Å
α=90° β=106.633° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.4426Å b=8.5727Å c=5.1740Å
α=90° β=106.482° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.4220Å b=8.5480Å c=5.1597Å
α=90° β=106.371° γ=90°
Aegirine
FeNaO6Si2
American Mineralogist (2008) 93, 1829-1837
a=9.4038Å b=8.5221Å c=5.1465Å
α=90° β=106.256° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.3718Å b=8.5240Å c=5.1985Å
α=90° β=107.399° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.4242Å b=8.5657Å c=5.2242Å
α=90° β=107.578° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.3372Å b=8.4966Å c=5.1805Å
α=90° β=107.285° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.2793Å b=8.4446Å c=5.1474Å
α=90° β=107.054° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.3030Å b=8.4666Å c=5.1609Å
α=90° β=107.140° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.2593Å b=8.4268Å c=5.1354Å
α=90° β=106.979° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.2455Å b=8.4137Å c=5.1269Å
α=90° β=106.910° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.2305Å b=8.3999Å c=5.1178Å
α=90° β=106.854° γ=90°
Jadeite
AlNaO6Si2
American Mineralogist (2008) 93, 198-209
a=9.2185Å b=8.3871Å c=5.1099Å
α=90° β=106.794° γ=90°
Bobdownsite
Al0.11Ca8.76FFe0.17Mg0.72Na0.24O27P7
The Canadian Mineralogist (2011) 49, 1065-1078
a=10.3224Å b=10.3224Å c=37.0700Å
α=90° β=90° γ=120°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.5439Å b=8.6831Å c=5.2517Å
α=90° β=107.441° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.5720Å b=8.7094Å c=5.2678Å
α=90° β=107.498° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.4867Å b=8.6323Å c=5.2206Å
α=90° β=107.221° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.5173Å b=8.6605Å c=5.2374Å
α=90° β=107.349° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.4350Å b=8.5780Å c=5.1894Å
α=90° β=107.030° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.4295Å b=8.5700Å c=5.1844Å
α=90° β=106.999° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.4105Å b=8.5481Å c=5.1727Å
α=90° β=106.915° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.4059Å b=8.5472Å c=5.1703Å
α=90° β=106.892° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.3836Å b=8.5201Å c=5.1560Å
α=90° β=106.776° γ=90°
Kosmochlor
CrNaO6Si2
American Mineralogist (2003) 88, 1025-1032
a=9.3742Å b=8.5086Å c=5.1484Å
α=90° β=106.721° γ=90°
Pyroxene-ideal
AlLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.572Å b=8.715Å c=5.032Å
α=90° β=112.1° γ=90°
Pyroxene-ideal
FeLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.695Å b=8.919Å c=5.149Å
α=90° β=110.9° γ=90°
Pyroxene-ideal
AlLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.503Å b=8.655Å c=4.997Å
α=90° β=112.1° γ=90°
Pyroxene-ideal
GaLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.601Å b=8.839Å c=5.103Å
α=90° β=110.7° γ=90°
Pyroxene-ideal
LiO6Si2V
American Mineralogist (2004) 89, 614-628
a=9.648Å b=8.898Å c=5.137Å
α=90° β=110.5° γ=90°
Pyroxene-ideal
FeNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.737Å b=9.009Å c=5.201Å
α=90° β=109.9° γ=90°
Pyroxene-ideal
AlNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.527Å b=8.810Å c=5.087Å
α=90° β=110.0° γ=90°
Pyroxene-ideal
MnNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.698Å b=8.973Å c=5.181Å
α=90° β=109.9° γ=90°
Pyroxene-ideal
NaO6Si2Ti
American Mineralogist (2004) 89, 614-628
a=9.791Å b=9.060Å c=5.231Å
α=90° β=109.9° γ=90°
Pyroxene-ideal
NaO6ScSi2
American Mineralogist (2004) 89, 614-628
a=9.929Å b=9.189Å c=5.305Å
α=90° β=109.8° γ=90°
Pyroxene-ideal
NaO6Si2V
American Mineralogist (2004) 89, 614-628
a=9.712Å b=8.992Å c=5.192Å
α=90° β=109.7° γ=90°
Pyroxene-ideal
GaNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.640Å b=8.928Å c=5.155Å
α=90° β=109.7° γ=90°
Pyroxene-ideal
InNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.967Å b=9.241Å c=5.335Å
α=90° β=109.4° γ=90°
Pyroxene-ideal
CaNiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.724Å b=9.043Å c=5.221Å
α=90° β=108.5° γ=90°
Pyroxene-ideal
CaCoO6Si2
American Mineralogist (2004) 89, 614-628
a=9.785Å b=9.100Å c=5.254Å
α=90° β=108.5° γ=90°
Pyroxene-ideal
CaFeO6Si2
American Mineralogist (2004) 89, 614-628
a=9.828Å b=9.142Å c=5.278Å
α=90° β=108.4° γ=90°
Pyroxene-ideal
CaMnO6Si2
American Mineralogist (2004) 89, 614-628
a=9.940Å b=9.248Å c=5.339Å
α=90° β=108.3° γ=90°
Pyroxene-ideal
O3SiZn
American Mineralogist (2004) 89, 614-628
a=9.755Å b=9.083Å c=5.244Å
α=90° β=107.9° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=6.928Å b=6Å c=3.464Å
α=90° β=109.47° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=7.559Å b=6.928Å c=4Å
α=90° β=105.3° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=9.725Å b=8.872Å c=5.122Å
α=90° β=108.9° γ=90°
Pyroxene-ideal
AlLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.292Å b=8.459Å c=4.884Å
α=90° β=109.6° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=14.580Å b=6.928Å c=4Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=14.074Å b=6.928Å c=4Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=18.363Å b=8.867Å c=5.119Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=18.535Å b=9.024Å c=5.210Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=18.363Å b=8.864Å c=5.118Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=18.027Å b=8.683Å c=5.013Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=9.268Å b=9.102Å c=5.255Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=9.199Å b=9.026Å c=5.211Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=9.154Å b=8.981Å c=5.185Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=9.127Å b=8.877Å c=5.125Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=9.002Å b=8.698Å c=5.022Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=7.394Å b=6Å c=3.464Å
α=90° β=117.9° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=7.565Å b=6.510Å c=3.759Å
α=90° β=115.8° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=7.608Å b=6.823Å c=3.939Å
α=90° β=113.4° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=7.326Å b=6.823Å c=3.939Å
α=90° β=107.7° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=7.023Å b=6.510Å c=3.759Å
α=90° β=104.1° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2004) 89, 614-628
a=6.6332Å b=6Å c=3.464Å
α=90° β=100.0° γ=90°
Pyroxene-ideal
CaMgO6Si2
American Mineralogist (2004) 89, 614-628
a=9.756Å b=9.067Å c=5.235Å
α=90° β=108.7° γ=90°
Pyroxene-ideal
CaMgO6Si2
American Mineralogist (2004) 89, 614-628
a=9.876Å b=9.170Å c=5.294Å
α=90° β=109.0° γ=90°
Pyroxene-ideal
CaMgO6Si2
American Mineralogist (2004) 89, 614-628
a=9.760Å b=9.071Å c=5.237Å
α=90° β=108.7° γ=90°
Pyroxene-ideal
CaMgO6Si2
American Mineralogist (2004) 89, 614-628
a=9.607Å b=8.939Å c=5.161Å
α=90° β=108.3° γ=90°
Pyroxene-ideal
FeO3Si
American Mineralogist (2004) 89, 614-628
a=9.552Å b=8.844Å c=5.106Å
α=90° β=103.8° γ=90°
Pyroxene-ideal
CrNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.697Å b=8.980Å c=5.184Å
α=90° β=109.7° γ=90°
Pyroxene-ideal
CrNaO6Si2
American Mineralogist (2004) 89, 614-628
a=9.650Å b=8.937Å c=5.160Å
α=90° β=109.7° γ=90°
Pyroxene-ideal
AlLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.570Å b=8.717Å c=5.033Å
α=90° β=112.1° γ=90°
Pyroxene-ideal
AlLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.589Å b=8.766Å c=5.061Å
α=90° β=111.7° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2003) 88, 653-666
a=7.39369100427Å b=6Å c=3.46410161514Å
α=90° β=117.93835° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2003) 88, 653-666
a=6.53197264742Å b=6Å c=3.46410161514Å
α=90° β=90° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2003) 88, 653-666
a=6.63324958071Å b=6Å c=3.46410161514Å
α=90° β=100.024987862° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2003) 88, 653-666
a=6.92820323028Å b=6Å c=3.46410161514Å
α=90° β=109.471220634° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2003) 88, 653-666
a=13.0639452948Å b=6Å c=3.46410161514Å
α=90° β=90.° γ=90°
Pyroxene-ideal
MgO3Si
American Mineralogist (2003) 88, 653-666
a=6.63324958071Å b=6.0Å c=3.46410161514Å
α=90° β=100.024987862° γ=90°