Enstatite Smyth J R, Mierdel K, Keppler H, Langenhorst F, Dubrovinsky L, Nestola F American Mineralogist 92 (2007) 973-976 Crystal chemistry of hydration in aluminous orthopyroxene Locality: synthetic _database_code_amcsd 0004362 CELL PARAMETERS: 18.1876 8.7352 5.1789 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 822.784 Density (g/cm3): 3.229 MAX. ABS. INTENSITY / VOLUME**2: 5.414029908 RIR: 0.546 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.06 2.97 6.2997 2 1 0 4 20.33 14.31 4.3676 0 2 0 2 20.53 6.66 4.3269 1 1 1 8 22.22 1.96 4.0006 2 1 1 8 27.15 37.55 3.2839 1 2 1 8 28.04 17.32 3.1821 4 1 1 8 28.33 48.14 3.1498 4 2 0 4 28.48 91.37 3.1342 2 2 1 8 29.47 1.67 3.0313 6 0 0 2 30.57 52.22 2.9246 3 2 1 8 31.23 100.00 2.8637 6 1 0 4 31.76 26.24 2.8176 5 1 1 8 32.28 2.15 2.7731 2 3 0 4 33.29 34.63 2.6912 4 2 1 8 35.72 51.73 2.5137 1 3 1 8 35.83 4.03 2.5061 6 1 1 8 36.06 71.30 2.4905 2 0 2 4 36.53 31.45 2.4597 5 2 1 8 36.65 2.15 2.4520 4 3 0 4 36.76 8.30 2.4447 2 3 1 8 37.78 6.19 2.3813 3 0 2 4 38.45 8.70 2.3412 3 3 1 8 39.21 2.43 2.2975 3 1 2 8 39.64 2.46 2.2734 8 0 0 2 40.07 2.09 2.2501 4 0 2 4 40.18 5.74 2.2444 7 1 1 8 40.71 4.55 2.2162 4 3 1 8 41.44 2.03 2.1790 4 1 2 8 42.87 29.85 2.1095 5 0 2 4 43.08 1.85 2.0999 6 3 0 4 43.27 3.11 2.0908 3 2 2 8 43.48 21.41 2.0815 5 3 1 8 44.17 14.80 2.0506 5 1 2 8 44.17 7.23 2.0505 7 2 1 8 44.75 4.58 2.0250 8 1 1 8 44.95 1.13 2.0166 8 2 0 4 45.34 1.05 2.0003 4 2 2 8 45.34 11.31 2.0000 1 4 1 8 46.11 5.35 1.9685 4 4 0 4 46.21 12.94 1.9647 2 4 1 8 46.68 29.35 1.9460 6 3 1 8 47.33 1.54 1.9207 6 1 2 8 47.62 1.93 1.9098 3 4 1 8 48.44 6.37 1.8792 8 2 1 8 49.44 1.61 1.8434 3 3 2 8 49.54 1.92 1.8401 4 4 1 8 49.71 5.18 1.8341 7 0 2 4 50.87 6.05 1.7949 6 2 2 8 51.31 8.22 1.7806 10 1 0 4 51.31 1.03 1.7805 4 3 2 8 51.93 7.17 1.7608 5 4 1 8 53.40 9.49 1.7157 2 5 0 4 54.16 7.60 1.6934 8 3 1 8 54.24 5.75 1.6911 7 2 2 8 54.75 8.69 1.6767 8 1 2 8 55.17 1.46 1.6649 2 1 3 8 55.26 1.35 1.6624 1 4 2 8 56.01 5.04 1.6420 2 4 2 8 56.41 4.91 1.6311 3 1 3 8 56.50 2.51 1.6286 2 5 1 8 57.24 2.66 1.6095 3 4 2 8 57.40 14.13 1.6054 0 2 3 4 57.64 14.70 1.5992 1 2 3 8 57.88 7.75 1.5931 9 0 2 4 57.96 1.37 1.5910 8 2 2 8 57.97 1.25 1.5909 7 4 1 8 58.37 11.88 1.5809 9 3 1 8 58.62 2.83 1.5749 8 4 0 4 58.93 2.43 1.5673 9 1 2 8 59.42 1.24 1.5555 4 5 1 8 59.65 1.37 1.5501 11 1 1 8 61.15 6.68 1.5156 12 0 0 2 61.24 8.74 1.5136 6 5 0 4 61.55 1.94 1.5067 5 5 1 8 62.01 1.76 1.4967 9 2 2 8 62.78 35.53 1.4800 1 3 3 8 62.86 2.37 1.4785 6 1 3 8 62.86 25.63 1.4784 10 3 1 8 63.32 1.61 1.4688 5 2 3 8 63.48 2.69 1.4655 2 3 3 8 63.63 2.01 1.4623 6 4 2 8 63.95 24.70 1.4559 0 6 0 2 65.83 1.34 1.4188 7 1 3 8 66.36 9.91 1.4086 3 5 2 8 66.58 1.06 1.4045 7 4 2 8 66.96 1.22 1.3975 10 4 0 4 66.96 1.14 1.3974 1 6 1 8 67.17 14.69 1.3936 11 0 2 4 67.62 24.26 1.3854 11 3 1 8 67.92 1.31 1.3801 12 2 1 8 68.14 5.27 1.3762 11 1 2 8 68.22 2.75 1.3748 5 3 3 8 68.73 5.17 1.3658 7 2 3 8 69.40 4.50 1.3543 0 4 3 4 69.62 3.09 1.3505 1 4 3 8 69.91 1.43 1.3455 5 5 2 8 70.63 4.85 1.3335 6 3 3 8 71.36 2.27 1.3217 3 4 3 8 72.66 13.22 1.3013 12 3 1 8 72.88 1.06 1.2979 4 4 3 8 73.16 10.17 1.2936 12 1 2 8 73.30 6.22 1.2915 1 0 4 4 73.38 1.18 1.2903 13 2 1 8 73.45 1.79 1.2892 7 3 3 8 73.73 3.01 1.2850 14 1 0 4 74.23 3.17 1.2776 1 1 4 8 75.45 2.04 1.2599 10 5 0 4 75.67 12.99 1.2569 2 6 2 8 76.50 3.60 1.2452 4 0 4 4 76.73 3.82 1.2421 3 6 2 8 77.98 1.09 1.2252 13 3 1 8 78.27 5.27 1.2215 8 5 2 8 79.31 2.71 1.2080 5 1 4 8 79.67 2.69 1.2035 3 5 3 8 80.09 3.44 1.1982 5 6 2 8 81.61 1.22 1.1798 6 1 4 8 81.82 5.35 1.1772 9 5 2 8 82.02 1.94 1.1748 5 2 4 8 84.11 1.23 1.1508 5 7 1 8 84.17 1.96 1.1502 10 3 3 8 84.30 1.67 1.1488 7 1 4 8 85.07 1.25 1.1403 7 6 2 8 85.41 1.62 1.1367 16 0 0 2 86.51 1.28 1.1251 8 0 4 4 86.51 1.15 1.1250 9 4 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.