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 = 0.0001 GPa (P-AIR) _database_code_amcsd 0019024 CELL PARAMETERS: 12.5976 12.5976 5.1168 90.000 90.000 120.000 SPACE GROUP: P6_3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 703.242 Density (g/cm3): 2.496 MAX. ABS. INTENSITY / VOLUME**2: 8.657108054 RIR: 1.129 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.10 9.21 10.9098 1 0 0 6 14.06 30.30 6.2988 1 1 0 6 16.25 3.77 5.4549 2 0 0 6 19.16 69.35 4.6326 1 0 1 6 21.55 7.38 4.1235 1 2 0 6 22.39 1.02 3.9715 1 1 1 6 23.84 3.59 3.7319 2 0 1 6 24.48 51.30 3.6366 3 0 0 6 27.79 49.11 3.2107 1 2 1 6 27.79 50.89 3.2107 2 1 1 6 29.52 1.47 3.0258 1 3 0 6 29.52 2.16 3.0258 3 1 0 6 30.15 5.49 2.9642 3 0 1 6 32.84 34.15 2.7275 4 0 0 6 34.43 8.49 2.6045 1 3 1 6 34.43 13.94 2.6045 3 1 1 6 35.07 29.26 2.5584 0 0 2 1 35.88 1.46 2.5029 3 2 0 6 36.06 5.02 2.4908 1 0 2 6 37.36 27.17 2.4069 4 0 1 6 37.79 1.80 2.3807 4 1 0 6 38.88 1.01 2.3163 2 0 2 6 40.11 7.14 2.2483 2 3 1 6 40.11 5.07 2.2483 3 2 1 6 41.38 1.98 2.1820 5 0 0 6 41.85 5.03 2.1585 1 4 1 6 41.85 5.30 2.1585 4 1 1 6 43.08 19.52 2.0996 3 3 0 6 43.24 9.57 2.0925 3 0 2 6 45.18 6.82 2.0071 5 0 1 6 47.55 1.47 1.9124 4 2 1 6 48.81 10.39 1.8660 4 0 2 6 50.91 1.55 1.7936 3 4 0 6 51.05 5.02 1.7891 2 3 2 6 51.05 4.41 1.7891 3 2 2 6 52.37 1.86 1.7470 2 5 0 6 52.37 3.89 1.7470 5 2 0 6 52.51 3.19 1.7429 1 4 2 6 52.51 4.21 1.7429 4 1 2 6 53.48 1.69 1.7133 6 0 1 6 54.19 3.39 1.6926 3 4 1 6 54.19 1.78 1.6926 4 3 1 6 54.45 2.09 1.6851 1 0 3 6 55.34 1.47 1.6602 5 0 2 6 55.59 1.40 1.6533 5 2 1 6 56.53 3.10 1.6279 2 0 3 6 56.72 2.14 1.6230 3 3 2 6 58.32 3.14 1.5822 1 6 1 6 58.32 2.34 1.5822 6 1 1 6 58.57 5.26 1.5761 1 2 3 6 58.57 5.23 1.5761 2 1 3 6 58.62 5.35 1.5747 4 4 0 6 59.29 1.56 1.5585 3 5 0 6 62.27 2.54 1.4909 5 3 1 6 62.27 4.58 1.4909 7 0 1 6 62.27 4.25 1.4909 3 5 1 6 62.51 1.63 1.4858 1 3 3 6 62.51 2.75 1.4858 3 1 3 6 62.68 6.64 1.4821 6 0 2 6 64.20 2.83 1.4508 2 6 1 6 64.20 2.86 1.4508 6 2 1 6 64.43 6.32 1.4461 4 0 3 6 64.48 1.39 1.4450 1 7 0 6 64.48 3.33 1.4450 7 1 0 6 64.60 1.44 1.4427 5 2 2 6 66.32 2.25 1.4095 2 3 3 6 66.32 1.86 1.4095 3 2 3 6 70.18 6.48 1.3410 4 4 2 6 71.61 10.01 1.3177 8 0 1 6 74.12 1.32 1.2792 0 0 4 1 75.57 1.45 1.2582 1 7 2 6 75.57 2.77 1.2582 7 1 2 6 75.90 2.36 1.2536 1 1 4 6 76.96 1.72 1.2389 8 1 1 6 77.18 2.17 1.2360 3 4 3 6 77.18 1.16 1.2360 4 3 3 6 78.98 1.03 1.2122 9 0 0 6 79.09 2.03 1.2108 3 6 2 6 79.09 2.52 1.2108 6 3 2 6 81.15 1.30 1.1852 2 2 4 6 83.46 1.32 1.1581 4 0 4 6 84.14 1.16 1.1505 3 5 3 6 84.14 1.58 1.1505 7 0 3 6 85.19 1.02 1.1391 3 2 4 6 85.86 1.88 1.1318 2 6 3 6 85.86 1.94 1.1318 6 2 3 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.