Structures by: Downs R. T.
Total: 408
Albite
AlNaO8Si3
American Mineralogist (1994) 79, 1042-1052
a=8.1372Å b=12.7870Å c=7.1574Å
α=94.245° β=116.605° γ=87.809°
Majorite
Ca0.489Mg3.511O12Si4
American Mineralogist (1994) 79, 581-584
a=11.5816Å b=11.5816Å c=11.5288Å
α=90° β=90° γ=90°
Albite
AlNaO8Si3
American Mineralogist (1994) 79, 1042-1052
a=8.1104Å b=12.7710Å c=7.1482Å
α=94.244° β=116.667° γ=87.835°
Albite
AlNaO8Si3
American Mineralogist (1994) 79, 1042-1052
a=7.9567Å b=12.6784Å c=7.0897Å
α=94.217° β=116.992° γ=88.025°
Albite
AlNaO8Si3
American Mineralogist (1994) 79, 1042-1052
a=7.8925Å b=12.6400Å c=7.0667Å
α=94.177° β=117.074° γ=88.128°
Fe1.98Mg0.854O4Re0.166
Fe1.98Mg0.854O4Re0.166
Geophysical Research Letters (2001) 28, 619-622
a=8.4158Å b=8.4158Å c=8.4158Å
α=90° β=90° γ=90°
Ba2Ca2Cu3.18Hg0.82O12.13
Ba2Ca2Cu3.18Hg0.82O12.13
Physica C (1994) 226, 216-221
a=3.842Å b=3.842Å c=15.832Å
α=90° β=90° γ=90°
Fe1.665Ir0.042Mg1.063O4Ru0.23
Fe1.665Ir0.042Mg1.063O4Ru0.23
Geophysical Research Letters (2001) 28, 619-622
a=8.4034Å b=8.4034Å c=8.4034Å
α=90° β=90° γ=90°
Fe1.807Mg1.039O4Os0.056Rh0.1
Fe1.807Mg1.039O4Os0.056Rh0.1
Geophysical Research Letters (2001) 28, 619-622
a=8.3955Å b=8.3955Å c=8.3955Å
α=90° β=90° γ=90°
Kyanite
Al2O5Si
American Mineralogist (1997) 82, 467-474
a=7.1038Å b=7.8305Å c=5.5605Å
α=90.023° β=101.112° γ=106.001°
Kyanite
Al2O5Si
American Mineralogist (1997) 82, 467-474
a=7.0896Å b=7.8173Å c=5.5497Å
α=90.031° β=101.098° γ=105.987°
Kyanite
Al2O5Si
American Mineralogist (1997) 82, 467-474
a=7.0750Å b=7.8027Å c=5.5367Å
α=90.063° β=101.091° γ=105.985°
Kyanite
Al2O5Si
American Mineralogist (1997) 82, 467-474
a=7.0648Å b=7.7926Å c=5.5299Å
α=90.089° β=101.085° γ=105.982°
Tychite
C4Mg2Na6O16S
Acta Crystallographica, Section E (2006) 62, i207-i209
a=13.9038Å b=13.9038Å c=13.9038Å
α=90° β=90° γ=90°
Reedmergnerite
BNaO8Si3
American Mineralogist (1999) 84, 333-340
a=7.83860Å b=12.37330Å c=6.80740Å
α=93.31900° β=116.36800° γ=92.04000°
Reedmergnerite
BNaO8Si3
American Mineralogist (1999) 84, 333-340
a=7.8389Å b=12.3715Å c=6.8065Å
α=93.311° β=116.363° γ=92.043°
Reedmergnerite
BNaO8Si3
American Mineralogist (1999) 84, 333-340
a=7.7231Å b=12.3038Å c=6.7719Å
α=93.364° β=116.316° γ=92.145°
Reedmergnerite
BNaO8Si3
American Mineralogist (1999) 84, 333-340
a=7.6589Å b=12.2675Å c=6.7512Å
α=93.374° β=116.256° γ=92.222°
Reedmergnerite
BNaO8Si3
American Mineralogist (1999) 84, 333-340
a=7.5790Å b=12.2200Å c=6.7141Å
α=93.373° β=116.303° γ=92.345°
Reedmergnerite
BNaO8Si3
American Mineralogist (1999) 84, 333-340
a=7.6194Å b=12.2465Å c=6.7389Å
α=93.392° β=116.222° γ=92.263°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.2145Å b=12.2145Å c=12.2145Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.2145Å b=12.2145Å c=12.2145Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.5731Å b=12.5731Å c=12.5731Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.4286Å b=12.4286Å c=12.4286Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.3094Å b=12.3094Å c=12.3094Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.1623Å b=12.1623Å c=12.1623Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.2595Å b=12.2595Å c=12.2595Å
α=90° β=90° γ=90°
Katoite
Al2Ca3H12O12Si3
American Mineralogist (2002) 87, 642-647
a=12.1267Å b=12.1267Å c=12.1267Å
α=90° β=90° γ=90°
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=9.4562Å b=8.5997Å c=5.2016Å
α=90° β=107.104° 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=9.4110Å b=8.5517Å c=5.1729Å
α=90° β=106.910° 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
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
AlLiO6Si2
American Mineralogist (2004) 89, 614-628
a=9.402Å b=8.587Å c=4.958Å
α=90° β=110.2° 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°
Sillimanite
Al2O5Si
Physics and Chemistry of Minerals (1997) 25, 39-47
a=7.4857Å b=7.6750Å c=5.7751Å
α=90° β=90° γ=90°
Sillimanite
Al2O5Si
Physics and Chemistry of Minerals (1997) 25, 39-47
a=7.4537Å b=7.6238Å c=5.7560Å
α=90° β=90° γ=90°
Sillimanite
Al2O5Si
Physics and Chemistry of Minerals (1997) 25, 39-47
a=7.4345Å b=7.5989Å c=5.7507Å
α=90° β=90° γ=90°
Sillimanite
Al2O5Si
Physics and Chemistry of Minerals (1997) 25, 39-47
a=7.4146Å b=7.5739Å c=5.7450Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.316Å b=8.892Å c=6.428Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.300Å b=8.868Å c=6.318Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.292Å b=8.856Å c=6.246Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.274Å b=8.838Å c=6.060Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.269Å b=8.838Å c=5.999Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.260Å b=8.846Å c=5.895Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.251Å b=8.868Å c=5.762Å
α=90° β=90° γ=90°
Witherite
CBaO3
Physics and Chemistry of Minerals (2000) 27, 467-473
a=5.258Å b=5.258Å c=5.64Å
α=90° β=90° γ=120°
Pb(Al,Si)4O8
Al1.6O8Pb2.198Si2.4
American Mineralogist (1995) 80, 937-940
a=9.414Å b=9.414Å c=2.75Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.8168Å b=10.4317Å c=5.9650Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.8198Å b=10.4378Å c=5.9699Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.8189Å b=10.4373Å c=5.9695Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.8190Å b=10.4333Å c=5.9672Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.8040Å b=10.4117Å c=5.9533Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.7996Å b=10.3925Å c=5.9443Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.7918Å b=10.3784Å c=5.9365Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.7717Å b=10.3320Å c=5.9128Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.7611Å b=10.3072Å c=5.9006Å
α=90° β=90° γ=90°
LiO4ScSi
LiO4ScSi
American Mineralogist (1996) 81, 327-334
a=4.7535Å b=10.2864Å c=5.8895Å
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°