Kornerupine Moore P B, Sen Gupta P K, Schlemper E O American Mineralogist 74 (1989) 642-655 Kornerupine: Chemical crystallography, comparative crystallography, and its cation relation to olivine and to Ni2In intermetallic _database_code_amcsd 0001247 CELL PARAMETERS: 16.0410 13.7460 6.7150 90.000 90.000 90.000 SPACE GROUP: Cmcm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1480.655 Density (g/cm3): 3.316 MAX. ABS. INTENSITY / VOLUME**2: 8.889546260 RIR: 0.873 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.47 54.06 10.4378 1 1 0 4 11.03 14.15 8.0205 2 0 0 2 12.88 21.90 6.8730 0 2 0 2 15.69 1.91 5.6473 1 1 1 8 16.99 1.80 5.2189 2 2 0 4 21.57 10.06 4.1207 2 2 1 8 22.17 6.50 4.0103 4 0 0 2 22.21 1.17 4.0017 3 1 1 8 24.16 3.00 3.6837 1 3 1 8 25.60 3.49 3.4793 3 3 0 4 25.72 2.13 3.4638 4 2 0 4 25.93 16.59 3.4365 0 4 0 2 26.55 40.48 3.3575 0 0 2 2 27.91 2.76 3.1962 1 1 2 8 28.25 1.65 3.1588 2 4 0 4 28.57 2.12 3.1242 5 1 0 4 28.83 1.48 3.0971 2 0 2 4 29.01 1.69 3.0783 4 2 1 8 29.19 6.03 3.0592 0 4 1 4 29.61 90.24 3.0168 0 2 2 4 31.59 6.89 2.8327 5 1 1 8 31.69 1.52 2.8236 2 2 2 8 32.15 6.19 2.7845 3 1 2 8 33.06 8.43 2.7097 1 5 0 4 33.56 2.66 2.6705 1 3 2 8 34.12 100.00 2.6280 5 3 0 4 34.37 3.57 2.6095 4 4 0 4 37.30 1.42 2.4108 4 2 2 8 37.45 14.39 2.4016 0 4 2 4 39.16 1.17 2.3006 2 4 2 8 39.33 1.60 2.2910 0 6 0 2 39.40 8.60 2.2872 5 1 2 8 42.47 11.34 2.1283 0 2 3 4 42.86 36.81 2.1101 6 4 0 4 42.89 3.94 2.1086 1 5 2 8 43.34 22.89 2.0876 5 5 0 4 43.74 7.29 2.0695 5 3 2 8 44.02 2.46 2.0571 2 2 3 8 45.03 2.33 2.0131 6 4 1 8 45.45 1.31 1.9956 1 3 3 8 45.50 7.03 1.9935 5 5 1 8 48.08 2.76 1.8924 0 6 2 4 48.54 8.24 1.8756 0 4 3 4 51.55 11.02 1.7728 5 5 2 8 51.72 3.94 1.7675 9 1 0 4 51.95 1.29 1.7603 7 5 0 4 53.32 5.21 1.7183 0 8 0 2 53.55 2.38 1.7114 4 6 2 8 53.80 3.05 1.7040 5 3 3 8 53.84 2.68 1.7027 7 5 1 8 54.49 3.27 1.6840 6 6 1 8 54.67 32.47 1.6788 0 0 4 2 54.81 3.01 1.6749 5 7 0 4 55.16 3.91 1.6651 6 2 3 8 55.30 1.08 1.6611 9 3 0 4 56.64 1.08 1.6251 5 7 1 8 57.45 9.39 1.6041 10 0 0 2 59.88 15.08 1.5446 6 6 2 8 60.66 1.24 1.5267 5 5 3 8 61.33 1.16 1.5116 7 3 3 8 61.91 45.59 1.4987 5 7 2 8 62.37 4.11 1.4888 9 3 2 8 62.65 1.95 1.4829 1 9 1 8 64.23 9.88 1.4501 11 1 0 4 64.37 2.15 1.4474 10 0 2 4 65.40 1.81 1.4271 1 5 4 8 65.90 1.36 1.4175 11 1 1 8 65.95 3.50 1.4163 10 2 2 8 66.04 22.62 1.4147 5 3 4 8 67.72 1.44 1.3837 7 5 3 8 67.98 3.31 1.3790 5 9 0 4 68.28 3.05 1.3736 6 6 3 8 69.40 3.67 1.3541 0 6 4 4 69.84 1.50 1.3467 0 10 1 4 70.18 3.01 1.3410 5 7 3 8 70.61 6.96 1.3339 10 4 2 8 71.48 1.01 1.3198 9 7 0 4 71.84 1.82 1.3140 10 6 0 4 71.86 7.08 1.3137 6 4 4 8 72.21 3.74 1.3082 5 5 4 8 73.54 1.31 1.2878 12 2 1 8 73.80 4.02 1.2840 11 3 2 8 74.60 15.06 1.2721 0 10 2 4 78.59 1.75 1.2172 9 1 4 8 78.61 2.64 1.2170 11 1 3 8 79.88 2.44 1.2008 0 8 4 4 81.11 2.38 1.1857 5 7 4 8 81.54 2.66 1.1806 11 3 3 8 83.32 4.94 1.1598 10 0 4 4 87.08 2.12 1.1192 0 0 6 2 88.52 1.59 1.1046 0 2 6 4 89.26 3.83 1.0974 11 1 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.