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Colusite |
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Spry P G, Merlino S, Wang S, Zhang X, Buseck P R |
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American Mineralogist 79 (1994) 750-762 |
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New occurrences and refined crystal chemistry of colusite, with comparisons to |
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arsenosulvanite |
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Sample: Sn-rich, crystal 2 |
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10.621 10.621 10.621 90 90 90 P-43n |
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atom x y z occ U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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V 0 0 0 .0096 .0096 .0096 0 0 0 |
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Cu1 .2570 0 0 .0124 .0152 .0257 0 0 .0050 |
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Cu2 .2495 .2495 .2495 .0264 .0264 .0264 .0012 .0012 .0012 |
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Cu3 .25 0 .5 .0112 .0285 .0285 0 0 0 |
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As .25 .5 0 .64 .0173 .0066 .0066 0 0 0 |
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Sn .25 .5 0 .36 .0173 .0066 .0066 0 0 0 |
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S1 .1192 .1192 .1192 .0186 .0186 .0186 -.0015 -.0015 -.0015 |
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S2 .3704 .3734 .1220 .0140 .0061 .0207 -.0020 .0001 -.0004 |
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Arsenosulvanite |
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Spry P G, Merlino S, Wang S, Zhang X, Buseck P R |
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American Mineralogist 79 (1994) 750-762 |
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New occurrences and refined crystal chemistry of colusite, with comparisons to |
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arsenosulvanite |
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Sample: Sn-poor, crystal 1 |
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10.538 10.538 10.538 90 90 90 P-43n |
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atom x y z occ U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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V 0 0 0 .0079 .0079 .0079 0 0 0 |
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Cu1 .2592 0 0 .0136 .0228 .0191 0 0 -.0047 |
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Cu2 .2513 .2513 .2513 .735 .0194 .0194 .0194 .0012 .0012 .0012 |
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Cu3 .25 0 .5 .0262 .0269 .0269 0 0 0 |
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As .25 .5 0 .0064 .0077 .0077 0 0 0 |
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S1 .1209 .1209 .1209 .0088 .0088 .0088 -.0004 -.0004 -.0004 |
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S2 .3655 .3742 .1208 .0286 .0090 .0144 .0065 -.0065 -.0008 |
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Empressite |
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Bindi L, Spry P G, Cipriani C |
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American Mineralogist 89 (2004) 1043-1047 |
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Empressite, AgTe, from the Empress-Josephine Mine, Colorado, USA: |
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Composition, physical properties, and determination of the crystal structure |
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8.882 20.100 4.614 90 90 90 Pmnb |
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atom x y z Uiso U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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Ag1 .75 .05130 .1669 .0352 .0434 .0330 .0293 0 0 .0069 |
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Ag2 .25 .15582 .7433 .0325 .0317 .0321 .0337 0 0 .0073 |
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Ag3 .5201 .06565 .6499 .0514 .0427 .0517 .0599 .0224 -.0233 -.0336 |
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Te1 .5228 .15783 .0999 .0165 .0140 .0168 .0187 .0004 .0019 .0003 |
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Te2 .25 .26324 .3510 .0163 .0164 .0152 .0172 0 0 -.0012 |
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Te3 .25 .03365 .3417 .0174 .0149 .0158 .0214 0 0 .0005 |
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Lenaite |
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Bindi L, Spry P G, Pratesi G |
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The Canadian Mineralogist 44 (2006) 207-212 |
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Lenaite from the Gies gold-silver telluride deposit, Judith Mountains, Montana, USA: |
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occurrence, composition, and crystal structure |
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Locality: Gies gold-silver telluride deposit, Judith Mountains, Montana, USA |
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5.4371 5.4371 10.8479 90 90 90 I-42d |
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atom x y z Uiso U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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Ag 0 0 0 .01609 .01620 .01620 .01586 0 0 0 |
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Fe 0 0 .5 .01505 .0152 .0152 .0148 0 0 0 |
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S .2857 .25 .125 .0180 .0189 .0175 .0176 0 0 -.0003 |
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Laphamite |
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Bindi L, Bonazzi P, Spry P G |
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The Canadian Mineralogist 46 (2008) 269-274 |
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Effects of sulfur-for-selenium substitution on the structure of laphamite, As2(Se,S)3 |
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Locality: Western Middle Anthracite field, Northumberland County, Pennsylvania |
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Sample: LAP1 |
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11.891 9.742 4.274 90 90.03 90 P2_1/n |
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atom x y z occ Uiso U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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As1 .2667 .1951 .8775 .0260 .0181 .0361 .0237 -.0016 -.0025 .0035 |
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As2 .4895 .3239 .3735 .0245 .0169 .0345 .0221 -.0008 -.0001 -.0009 |
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SeX1 .4032 .1192 .5209 .62 .0296 .0208 .038 .030 .0006 -.0003 .0001 |
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SX1 .4032 .1192 .5209 .36 .0296 .0208 .038 .030 .0006 -.0003 .0001 |
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AsX1 .4032 .1192 .5209 .02 .0296 .0208 .038 .030 .0006 -.0003 .0001 |
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SeX2 .3472 .4092 .0210 .78 .0276 .0208 .036 .0261 .0018 -.0033 .0013 |
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SX2 .3472 .4092 .0210 .19 .0276 .0208 .036 .0261 .0018 -.0033 .0013 |
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AsX2 .3472 .4092 .0210 .03 .0276 .0208 .036 .0261 .0018 -.0033 .0013 |
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SeX3 .1232 .3000 .5501 .88 .0256 .0156 .039 .0225 .0010 -.0032 .0007 |
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SX3 .1232 .3000 .5501 .09 .0256 .0156 .039 .0225 .0010 -.0032 .0007 |
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AsX3 .1232 .3000 .5501 .03 .0256 .0156 .039 .0225 .0010 -.0032 .0007 |
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Laphamite |
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Bindi L, Bonazzi P, Spry P G |
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The Canadian Mineralogist 46 (2008) 269-274 |
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Effects of sulfur-for-selenium substitution on the structure of laphamite, As2(Se,S)3 |
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Locality: Western Middle Anthracite field, Northumberland County, Pennsylvania |
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Sample: LAP2 |
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11.934 9.804 4.268 90 90.32 90 P2_1/n |
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atom x y z occ Uiso U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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As1 .26596 .1955 .8799 .0183 .0150 .0218 .0180 -.0013 -.0010 .0015 |
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As2 .48961 .3243 .3764 .0182 .0146 .0215 .0183 -.0007 -.0002 -.0013 |
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SeX1 .40305 .1185 .5225 .60 .0201 .0159 .0224 .0220 .0011 .0021 -.0002 |
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SX1 .40305 .1185 .5225 .39 .0201 .0159 .0224 .0220 .0011 .0021 -.0002 |
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AsX1 .40305 .1185 .5225 .01 .0201 .0159 .0224 .0220 .0011 .0021 -.0002 |
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SeX2 .34742 .4097 .0227 .78 .0201 .0188 .0189 .0225 .0017 -.0026 .0007 |
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SX2 .34742 .4097 .0227 .21 .0201 .0188 .0189 .0225 .0017 -.0026 .0007 |
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AsX2 .34742 .4097 .0227 .01 .0201 .0188 .0189 .0225 .0017 -.0026 .0007 |
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SeX3 .12264 .2997 .5515 .87 .0192 .0136 .0253 .0187 .0001 .0010 .0011 |
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SX3 .12264 .2997 .5515 .11 .0192 .0136 .0253 .0187 .0001 .0010 .0011 |
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AsX3 .12264 .2997 .5515 .02 .0192 .0136 .0253 .0187 .0001 .0010 .0011 |
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Cupropolybasite |
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Bindi L, Evain M, Spry P G, Tait K T, Menchetti S |
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Mineralogical Magazine 71 (2007) 641-650 |
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Structural role of copper in the minerals of the pearceite-polybasite group: |
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the case of the new minerals cupropearceite and cupropolybasite |
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Locality: Premier mine, Stewart, British Columbia, Canada |
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7.3277 7.3277 11.7752 90 90 120 P-3m1 |
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atom x y z occ Uiso U(1,1) U(2,2) U(3,3) U(1,2) U(1,3) U(2,3) |
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Ag1 .2954 .14769 .38437 .451 .0518 .0620 .0384 .0627 .0310 -.0052 -.0026 |
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Cu1 .2954 .14769 .38437 .549 .0518 .0620 .0384 .0627 .0310 -.0052 -.0026 |
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Ag2 .3568 .113 .1236 .356 .312 .0401 .73 .0510 .103 .0064 .020 |
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Ag3 .3046 -.0841 .1186 .394 .139 .230 .177 .057 .137 -.0329 -.030 |
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Sb 1/3 2/3 .41428 .691 .0245 .0253 .0253 .0228 .01265 0 0 |
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As 1/3 2/3 .41428 .309 .0245 .0253 .0253 .0228 .01265 0 0 |
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Cu2 0 0 0 .0320 .0396 .0396 .0168 .0198 0 0 |
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S1 0 0 .1833 .0322 .0408 .0408 .0150 .0204 0 0 |
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S2 .0100 .50499 .31516 .0269 .0221 .0247 .0330 .0110 .0016 .0008 |
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S3 2/3 1/3 .0202 .0463 .0484 .0484 .0421 .0242 0 0 |
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S4 0 0 .5 .113 .146 .146 .047 .073 0 0 |
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