Veatchite Grice J D, Pring A American Mineralogist 97 (2012) 489-495 Veatchite: structural relationships of the three polytypes Note: moderate-T, high-P polytype veatchite-2M Locality: Penobsquis deposit, Sussex, New Brunswick, Canada _database_code_amcsd 0018912 CELL PARAMETERS: 6.6070 11.7125 20.6848 90.000 91.998 90.000 SPACE GROUP: Cc X-RAY WAVELENGTH: 1.541838 Cell Volume: 1599.709 Density (g/cm3): 2.589 MAX. ABS. INTENSITY / VOLUME**2: 19.04388276 RIR: 2.395 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.55 100.00 10.3361 0 0 2 1 15.73 8.01 5.6345 0 2 1 2 15.87 2.34 5.5854 -1 1 1 2 16.12 1.95 5.4984 1 1 1 2 17.16 1.37 5.1681 0 0 4 1 17.40 5.23 5.0953 0 2 2 2 19.80 2.09 4.4832 -1 1 3 2 20.41 1.85 4.3512 1 1 3 2 22.78 3.78 3.9037 -1 1 4 2 22.95 1.17 3.8749 0 2 4 2 23.49 3.93 3.7875 1 1 4 2 25.86 16.23 3.4454 0 0 6 1 26.16 2.40 3.4066 -1 1 5 2 26.39 1.36 3.3775 0 2 5 2 26.52 9.31 3.3607 1 3 0 2 26.80 4.71 3.3265 -1 3 1 2 26.94 2.62 3.3099 1 1 5 2 26.95 2.51 3.3078 1 3 1 2 27.01 34.62 3.3015 2 0 0 1 27.77 6.48 3.2128 -1 3 2 2 28.06 1.60 3.1794 1 3 2 2 29.36 2.08 3.0419 -1 3 3 2 29.78 1.15 2.9997 1 3 3 2 29.82 2.49 2.9961 -1 1 6 2 30.09 2.12 2.9696 0 2 6 2 30.53 1.55 2.9281 0 4 0 2 30.65 3.35 2.9169 1 1 6 2 30.84 1.34 2.8992 0 4 1 2 31.27 9.07 2.8604 -2 2 1 2 31.50 1.34 2.8405 -1 3 4 2 31.54 5.94 2.8368 2 2 1 2 31.76 1.49 2.8173 0 4 2 2 32.05 1.40 2.7927 -2 2 2 2 32.57 3.46 2.7492 2 2 2 2 33.25 2.43 2.6949 0 4 3 2 33.69 1.71 2.6602 -1 1 7 2 34.08 1.57 2.6308 -1 3 5 2 34.56 1.08 2.5953 1 1 7 2 34.70 1.56 2.5855 1 3 5 2 34.72 23.28 2.5840 0 0 8 1 35.25 1.12 2.5461 -2 2 4 2 36.20 2.07 2.4812 2 2 4 2 37.64 7.18 2.3895 0 4 5 2 37.72 1.93 2.3847 1 3 6 2 38.06 1.30 2.3641 0 2 8 2 40.23 1.51 2.2416 -2 2 6 2 40.88 1.42 2.2077 1 5 0 2 41.04 1.08 2.1991 1 3 7 2 41.07 4.32 2.1979 -1 5 1 2 41.17 1.83 2.1925 1 5 1 2 41.21 1.03 2.1907 2 4 0 2 41.34 1.90 2.1838 -2 4 1 2 41.51 1.18 2.1756 2 2 6 2 41.74 1.04 2.1642 -1 5 2 2 41.76 2.11 2.1631 3 1 0 2 41.84 1.67 2.1591 -3 1 1 2 41.91 1.14 2.1558 -1 1 9 2 41.96 1.77 2.1532 -2 4 2 2 42.15 3.41 2.1438 3 1 1 2 42.26 1.77 2.1383 0 2 9 2 43.01 2.12 2.1029 3 1 2 2 43.04 4.17 2.1018 -2 4 3 2 43.52 1.07 2.0793 0 4 7 2 43.64 2.36 2.0739 2 4 3 2 43.73 1.33 2.0702 -2 0 8 1 43.79 4.93 2.0672 0 0 10 1 43.81 1.44 2.0663 -1 3 8 2 44.32 1.85 2.0439 3 1 3 2 44.43 5.50 2.0388 -1 5 4 2 44.61 1.79 2.0311 1 3 8 2 44.64 1.00 2.0298 2 2 7 2 44.83 6.16 2.0217 1 5 4 2 44.87 2.08 2.0202 -3 1 4 2 45.31 1.55 2.0013 2 0 8 1 45.34 1.99 2.0004 2 4 4 2 46.04 1.73 1.9715 3 1 4 2 46.46 4.73 1.9545 -2 4 5 2 46.53 1.08 1.9518 -2 2 8 2 46.72 2.35 1.9442 -3 1 5 2 46.88 1.33 1.9381 1 5 5 2 47.41 6.06 1.9175 2 4 5 2 48.73 1.03 1.8687 -1 5 6 2 48.95 2.42 1.8609 -3 1 6 2 49.28 3.16 1.8491 1 5 6 2 50.06 2.17 1.8219 -2 2 9 2 51.32 1.17 1.7802 -2 0 10 1 51.49 1.11 1.7749 -1 3 10 2 51.51 2.19 1.7743 -3 1 7 2 51.68 1.45 1.7688 2 2 9 2 55.68 2.51 1.6507 4 0 0 1 59.72 1.18 1.5485 3 1 9 2 61.21 1.09 1.5143 -1 7 5 2 66.96 1.09 1.3974 0 4 13 2 74.41 1.24 1.2749 -1 9 1 2 74.55 1.03 1.2730 2 4 13 2 78.32 1.25 1.2208 1 5 14 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.