Timroseite Kampf A R, Mills S J, Housley R M, Marty J, Thorne B American Mineralogist 95 (2010) 1560-1568 Lead-tellurium oxysalts from Otto Mountain near Baker, California: V. Timroseite, Pb2Cu2+5(Te6+O6)2(OH)2, and paratimroseite, Pb2Cu2+4(Te6+O6)2(H2O)2, two new tellurates with Te-Cu polyhedral sheets Locality: Otto Mountain, Baker, California _database_code_amcsd 0017721 CELL PARAMETERS: 5.2000 9.6225 11.5340 90.000 90.000 90.000 SPACE GROUP: P2_1nm X-RAY WAVELENGTH: 1.541838 Cell Volume: 577.127 Density (g/cm3): 7.017 MAX. ABS. INTENSITY / VOLUME**2: 63.76780959 RIR: 2.959 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.19 1.06 9.6225 0 1 0 2 18.72 34.76 4.7405 1 0 1 2 19.40 11.12 4.5747 1 1 0 2 20.00 9.83 4.4404 0 2 1 4 20.89 29.79 4.2525 1 1 1 4 24.09 51.88 3.6944 0 2 2 4 24.84 42.99 3.5840 1 1 2 4 25.22 22.94 3.5315 1 2 0 2 26.39 40.70 3.3768 1 2 1 4 27.81 12.58 3.2075 0 3 0 2 28.88 15.47 3.0915 1 0 3 2 28.89 2.93 3.0902 0 3 1 4 29.66 13.96 3.0117 1 2 2 4 29.75 58.94 3.0035 0 2 3 4 30.37 100.00 2.9433 1 1 3 4 31.01 44.46 2.8835 0 0 4 2 31.93 16.18 2.8031 0 3 2 4 32.81 97.38 2.7299 1 3 0 2 33.74 7.27 2.6565 1 3 1 4 34.48 14.05 2.6008 1 2 3 4 34.50 16.24 2.6000 2 0 0 1 35.77 19.10 2.5100 2 1 0 2 36.41 4.83 2.4674 1 3 2 4 36.48 1.58 2.4629 0 3 3 4 36.64 8.40 2.4526 2 1 1 4 36.85 16.18 2.4394 1 1 4 4 37.96 12.79 2.3702 2 0 2 2 38.22 6.06 2.3549 0 4 1 4 39.14 25.40 2.3015 2 1 2 4 40.19 6.49 2.2437 2 2 1 4 40.38 20.91 2.2335 1 2 4 4 40.53 4.40 2.2259 1 3 3 4 40.64 1.43 2.2202 0 4 2 4 41.35 8.21 2.1833 1 4 0 2 42.12 9.30 2.1452 1 4 1 4 42.14 7.21 2.1444 0 3 4 4 42.52 11.44 2.1262 2 2 2 4 42.89 2.57 2.1086 1 0 5 2 43.04 17.53 2.1017 2 1 3 4 44.36 1.06 2.0419 1 4 2 4 44.42 10.95 2.0393 0 4 3 4 45.60 6.46 1.9895 2 3 1 4 45.77 27.79 1.9824 1 3 4 4 46.18 5.64 1.9658 2 2 3 4 47.05 7.89 1.9313 1 2 5 4 47.06 7.30 1.9309 2 0 4 2 47.29 7.26 1.9223 0 0 6 2 47.71 2.00 1.9062 2 3 2 4 47.92 4.57 1.8985 1 4 3 4 47.92 4.53 1.8983 0 5 1 4 48.06 10.20 1.8932 2 1 4 4 49.33 3.11 1.8472 0 4 4 4 49.96 2.03 1.8255 0 5 2 4 50.57 1.87 1.8049 1 5 0 2 50.96 8.35 1.7920 2 2 4 4 51.08 7.84 1.7880 2 3 3 4 51.17 9.49 1.7851 0 2 6 4 51.23 6.93 1.7832 1 5 1 4 51.57 19.66 1.7722 1 1 6 4 51.77 4.63 1.7658 2 4 0 2 51.89 2.76 1.7620 1 3 5 4 53.18 13.59 1.7225 1 5 2 4 53.23 2.63 1.7209 0 5 3 4 53.46 1.66 1.7141 3 0 1 2 53.73 1.66 1.7059 3 1 0 2 53.99 3.25 1.6985 2 1 5 4 54.34 4.41 1.6884 1 2 6 4 54.34 5.93 1.6884 2 4 2 4 54.37 6.28 1.6875 3 1 1 4 55.55 1.06 1.6543 2 3 4 4 55.75 2.81 1.6489 0 3 6 4 56.31 7.56 1.6338 1 5 3 4 56.43 3.02 1.6307 3 2 0 2 56.67 6.85 1.6242 2 2 5 4 57.04 2.68 1.6147 3 2 1 4 57.43 5.23 1.6046 2 4 3 4 57.46 5.01 1.6038 0 6 0 2 58.18 2.28 1.5857 1 4 5 4 58.40 1.89 1.5802 3 0 3 2 58.74 2.73 1.5718 1 3 6 4 58.85 1.54 1.5692 3 2 2 4 59.26 4.19 1.5593 3 1 3 4 59.28 1.49 1.5588 0 2 7 4 59.64 4.92 1.5502 1 1 7 4 59.86 3.91 1.5451 0 6 2 4 60.40 2.51 1.5325 1 6 0 2 60.52 3.01 1.5299 1 5 4 4 60.68 7.57 1.5262 2 1 6 4 60.74 6.00 1.5249 3 3 0 2 61.32 2.26 1.5118 3 3 1 4 61.59 14.89 1.5058 2 4 4 4 61.77 4.24 1.5017 0 4 6 4 61.80 3.86 1.5013 3 2 3 4 62.17 2.77 1.4932 1 2 7 4 62.73 4.37 1.4811 1 6 2 4 62.78 1.48 1.4801 0 6 3 4 62.89 1.56 1.4778 0 5 5 4 63.06 16.22 1.4742 3 3 2 4 63.18 7.41 1.4716 2 2 6 4 63.35 6.86 1.4682 3 1 4 4 64.65 3.14 1.4418 0 0 8 2 65.58 1.04 1.4236 1 6 3 4 65.69 4.59 1.4215 1 5 5 4 65.79 1.57 1.4195 3 2 4 4 66.74 2.21 1.4016 0 6 4 4 67.04 1.74 1.3960 3 4 1 4 68.07 1.71 1.3774 2 1 7 4 68.20 5.21 1.3751 1 1 8 4 68.40 2.77 1.3716 3 1 5 4 68.77 2.07 1.3650 0 7 1 4 68.78 2.71 1.3650 2 6 0 2 69.32 3.20 1.3555 2 6 1 4 69.45 2.78 1.3533 1 6 4 4 69.76 1.86 1.3480 3 3 4 4 70.75 1.08 1.3316 3 2 5 4 70.91 1.02 1.3290 1 7 0 2 70.96 5.39 1.3283 2 6 2 4 71.73 4.66 1.3158 1 5 6 4 71.77 1.23 1.3152 1 4 7 4 71.78 1.13 1.3150 0 3 8 4 72.72 3.60 1.3004 2 4 6 4 72.74 1.79 1.3000 4 0 0 1 73.07 1.75 1.2950 1 7 2 4 73.11 1.84 1.2944 0 7 3 4 73.64 1.21 1.2863 2 6 3 4 74.07 1.66 1.2800 3 5 1 4 74.29 2.38 1.2768 2 3 7 4 74.34 1.16 1.2759 3 1 6 4 74.41 1.76 1.2749 1 3 8 4 74.87 4.65 1.2682 4 0 2 2 75.66 2.43 1.2570 3 5 2 4 75.80 1.28 1.2550 4 2 0 2 76.14 1.70 1.2502 2 1 8 4 76.33 1.38 1.2476 4 2 1 4 76.57 1.27 1.2443 1 0 9 2 76.62 1.29 1.2436 3 2 6 4 77.00 1.79 1.2384 0 2 9 4 77.13 2.13 1.2367 0 4 8 4 77.32 2.80 1.2340 1 1 9 4 78.41 1.43 1.2197 2 2 8 4 79.39 4.32 1.2070 1 7 4 4 80.08 1.68 1.1983 1 6 6 4 80.38 1.47 1.1947 3 3 6 4 80.51 1.53 1.1930 4 2 3 4 81.16 1.36 1.1851 3 1 7 4 81.16 1.36 1.1851 4 0 4 2 81.51 1.37 1.1809 0 7 5 4 81.64 1.62 1.1793 4 3 2 4 82.03 2.38 1.1747 2 6 5 4 83.89 1.84 1.1534 3 6 2 4 84.12 2.11 1.1507 4 2 4 4 85.28 1.17 1.1381 4 4 1 4 85.94 1.50 1.1311 0 4 9 4 86.56 2.21 1.1245 3 5 5 4 86.84 1.87 1.1216 0 2 10 4 87.15 1.98 1.1184 1 1 10 4 87.31 6.94 1.1168 2 4 8 4 88.74 1.21 1.1024 4 2 5 4 88.87 3.25 1.1011 3 1 8 4 89.69 2.83 1.0932 1 7 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.