Cancrinite Lotti P, Gatta G D, Rotiroti N, Camara F American Mineralogist 97 (2012) 872-882 High-pressure study of a natural cancrinite Locality: Cameroun Note: P = 4.30 GPa _database_code_amcsd 0019031 CELL PARAMETERS: 12.3470 12.3470 4.9350 90.000 90.000 120.000 SPACE GROUP: P6_3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 651.539 Density (g/cm3): 2.695 MAX. ABS. INTENSITY / VOLUME**2: 8.724358190 RIR: 1.054 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.27 9.47 10.6928 1 0 0 6 14.35 29.58 6.1735 1 1 0 6 16.58 2.36 5.3464 2 0 0 6 19.81 64.71 4.4808 1 0 1 6 21.99 8.13 4.0415 1 2 0 6 24.55 2.57 3.6263 2 0 1 6 24.98 48.93 3.5643 3 0 0 6 28.55 49.37 3.1268 1 2 1 6 28.55 50.63 3.1268 2 1 1 6 30.13 1.33 2.9657 1 3 0 6 30.13 1.80 2.9657 3 1 0 6 30.95 5.07 2.8895 3 0 1 6 33.52 45.82 2.6732 4 0 0 6 35.31 7.41 2.5420 1 3 1 6 35.31 13.01 2.5420 3 1 1 6 36.41 32.45 2.4675 0 0 2 1 36.63 1.53 2.4531 3 2 0 6 37.40 6.83 2.4043 1 0 2 6 38.29 25.52 2.3505 4 0 1 6 38.58 2.50 2.3334 4 1 0 6 38.58 1.05 2.3334 1 4 0 6 39.32 1.03 2.2913 1 1 2 6 40.25 1.51 2.2404 2 0 2 6 41.09 9.01 2.1967 2 3 1 6 41.09 5.80 2.1967 3 2 1 6 42.26 1.87 2.1386 5 0 0 6 42.87 7.03 2.1095 4 1 1 6 42.87 5.96 2.1095 1 4 1 6 44.00 15.37 2.0578 3 3 0 6 44.67 8.48 2.0288 3 0 2 6 46.27 6.00 1.9622 5 0 1 6 48.69 1.14 1.8701 2 4 1 6 48.69 2.11 1.8701 4 2 1 6 50.32 10.52 1.8132 4 0 2 6 51.26 1.06 1.7821 6 0 0 6 52.02 1.61 1.7579 3 4 0 6 52.61 5.12 1.7397 3 2 2 6 52.61 6.48 1.7397 2 3 2 6 53.52 1.31 1.7122 2 5 0 6 53.52 3.31 1.7122 5 2 0 6 54.09 2.74 1.6954 4 1 2 6 54.09 1.87 1.6954 1 4 2 6 54.76 1.70 1.6762 6 0 1 6 55.49 2.80 1.6560 3 4 1 6 55.49 1.40 1.6560 4 3 1 6 56.61 1.57 1.6259 1 0 3 6 56.92 1.90 1.6176 5 2 1 6 56.98 1.42 1.6161 5 0 2 6 58.39 2.25 1.5804 3 3 2 6 58.72 2.80 1.5723 2 0 3 6 59.72 2.61 1.5483 6 1 1 6 59.72 3.47 1.5483 1 6 1 6 59.93 7.77 1.5434 4 4 0 6 60.62 2.04 1.5275 3 5 0 6 60.79 4.70 1.5236 1 2 3 6 60.79 4.90 1.5236 2 1 3 6 63.78 5.32 1.4592 3 5 1 6 63.78 3.08 1.4592 5 3 1 6 63.78 3.66 1.4592 7 0 1 6 64.50 5.08 1.4447 6 0 2 6 64.81 1.71 1.4385 1 3 3 6 64.81 3.00 1.4385 3 1 3 6 65.76 2.61 1.4201 2 6 1 6 65.76 2.68 1.4201 6 2 1 6 65.96 1.45 1.4163 1 7 0 6 65.96 3.72 1.4163 7 1 0 6 66.46 1.61 1.4067 5 2 2 6 66.77 8.06 1.4010 4 0 3 6 68.70 3.37 1.3663 2 3 3 6 68.70 2.58 1.3663 3 2 3 6 72.20 6.06 1.3085 4 4 2 6 72.33 1.48 1.3063 2 7 0 6 73.39 8.10 1.2901 8 0 1 6 76.20 1.03 1.2493 5 1 3 6 77.75 1.87 1.2283 7 1 2 6 78.91 1.36 1.2131 8 1 1 6 79.17 1.59 1.2098 1 1 4 6 79.86 1.08 1.2011 4 3 3 6 79.86 2.11 1.2011 3 4 3 6 81.38 1.29 1.1824 3 6 2 6 81.38 1.76 1.1824 6 3 2 6 86.98 1.02 1.1202 4 0 4 6 87.06 1.32 1.1194 7 0 3 6 88.76 1.02 1.1022 3 2 4 6 88.84 1.83 1.1014 6 2 3 6 88.84 1.77 1.1014 2 6 3 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.