Meionite Lin S B, Burley B J Tschermaks Mineralogische und Petrographische Mitteilungen 21 (1974) 196-215 The crystal structure of an intermediate scapolite - wernerite Locality: Tsarasaotra, Madagascar _database_code_amcsd 0015648 CELL PARAMETERS: 12.1164 12.1164 7.5810 90.000 90.000 90.000 SPACE GROUP: P4_2/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 1112.945 Density (g/cm3): 2.649 MAX. ABS. INTENSITY / VOLUME**2: 9.852896355 RIR: 1.211 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.33 7.30 8.5676 1 1 0 4 13.78 5.70 6.4267 1 0 1 8 14.62 17.85 6.0582 2 0 0 4 20.14 1.71 4.4083 1 2 1 8 20.14 4.43 4.4083 2 1 1 8 20.74 4.01 4.2838 2 2 0 4 23.21 3.01 3.8315 1 3 0 4 23.21 34.41 3.8315 3 1 0 4 24.98 15.24 3.5645 3 0 1 8 25.70 100.00 3.4664 1 1 2 8 27.76 1.52 3.2134 2 0 2 8 29.07 84.61 3.0722 2 3 1 8 29.49 36.40 3.0291 4 0 0 4 31.32 5.00 2.8559 3 3 0 4 31.52 4.30 2.8387 2 2 2 8 32.68 15.99 2.7400 1 4 1 8 33.06 7.33 2.7093 2 4 0 4 33.25 43.04 2.6947 3 1 2 8 33.25 1.83 2.6947 1 3 2 8 37.86 1.51 2.3762 5 1 0 4 39.02 9.65 2.3082 4 3 1 8 39.02 2.98 2.3082 3 4 1 8 40.94 3.68 2.2042 4 2 2 8 41.88 4.54 2.1570 5 2 1 8 41.88 3.91 2.1570 2 5 1 8 42.18 12.71 2.1422 3 0 3 8 42.19 1.90 2.1419 4 4 0 4 43.55 4.05 2.0779 3 5 0 4 44.88 5.20 2.0197 3 2 3 8 44.88 3.38 2.0197 2 3 3 8 45.03 3.07 2.0133 5 1 2 8 45.03 2.76 2.0133 1 5 2 8 47.18 9.76 1.9265 6 1 1 8 47.18 2.04 1.9265 1 6 1 8 47.45 3.78 1.9160 4 1 3 8 47.45 13.49 1.9160 1 4 3 8 47.46 9.26 1.9158 6 2 0 4 47.46 1.01 1.9158 2 6 0 4 48.00 12.65 1.8952 0 0 4 2 49.66 1.36 1.8359 5 4 1 8 49.66 1.94 1.8359 4 5 1 8 50.06 4.54 1.8221 3 5 2 8 50.06 1.25 1.8221 5 3 2 8 52.05 1.45 1.7570 6 3 1 8 52.05 2.51 1.7570 3 6 1 8 52.31 3.22 1.7490 5 0 3 8 53.48 2.79 1.7135 1 7 0 4 53.48 5.17 1.7135 7 1 0 4 53.60 2.15 1.7098 2 6 2 8 54.62 2.29 1.6802 4 6 0 4 56.62 3.38 1.6256 2 7 1 8 57.35 3.56 1.6067 4 0 4 8 59.05 1.27 1.5644 6 1 3 8 59.05 6.87 1.5644 1 6 3 8 60.96 1.12 1.5198 5 6 1 8 61.19 5.78 1.5147 5 4 3 8 62.70 1.78 1.4817 5 1 4 8 63.06 1.94 1.4742 4 7 1 8 63.41 3.29 1.4670 7 3 2 8 63.41 4.05 1.4670 3 7 2 8 63.74 2.33 1.4601 1 2 5 8 65.35 3.25 1.4280 7 0 3 8 65.35 5.45 1.4279 6 6 0 4 65.79 3.68 1.4195 3 0 5 8 66.37 2.89 1.4085 7 5 0 4 67.37 2.79 1.3899 2 7 3 8 67.81 8.63 1.3820 2 3 5 8 68.49 9.25 1.3700 8 2 2 8 68.49 7.25 1.3700 2 8 2 8 69.37 1.44 1.3547 8 4 0 4 69.80 3.52 1.3473 6 2 4 8 70.36 3.41 1.3380 1 9 0 4 71.13 1.44 1.3255 9 0 1 8 71.34 4.63 1.3221 5 6 3 8 71.45 1.19 1.3203 5 7 2 8 73.08 1.14 1.2949 9 2 1 8 73.71 2.90 1.2853 4 3 5 8 74.36 1.25 1.2756 8 4 2 8 74.68 1.02 1.2710 7 1 4 8 74.68 1.49 1.2710 1 7 4 8 75.20 1.91 1.2635 0 0 6 2 75.32 1.14 1.2617 9 1 2 8 79.43 3.22 1.2065 6 1 5 8 81.85 1.68 1.1768 5 9 0 4 82.89 2.23 1.1647 7 7 2 8 83.19 1.27 1.1613 6 3 5 8 83.82 1.63 1.1541 8 6 2 8 85.05 1.37 1.1405 7 0 5 8 85.06 1.54 1.1405 6 6 4 8 86.62 1.53 1.1239 5 9 2 8 89.70 1.08 1.0931 1 9 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.