Hiortdahlite Merlino S, Perchiazzi N Mineralogy and Petrology 37 (1987) 25-35 The crystal structure of hiortdahlite II Locality: Kipawa River, Canada Note: this is a polytype of Hiortdahlite I _database_code_amcsd 0014615 CELL PARAMETERS: 11.0120 10.3420 7.3590 89.920 109.210 90.060 SPACE GROUP: P-1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 791.421 Density (g/cm3): 3.352 MAX. ABS. INTENSITY / VOLUME**2: 9.892134300 RIR: 0.961 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.55 8.79 10.3420 0 1 0 2 12.07 1.14 7.3306 1 1 0 2 12.74 12.56 6.9492 0 0 1 2 15.35 1.84 5.7710 0 1 1 2 15.37 1.55 5.7651 0 -1 1 2 15.39 3.05 5.7586 -1 1 1 2 17.05 20.44 5.1994 2 0 0 2 19.10 2.02 4.6465 -2 1 0 2 19.16 3.78 4.6313 -1 2 0 2 19.17 6.95 4.6290 1 2 0 2 19.61 5.19 4.5277 -2 1 1 2 19.63 2.00 4.5227 -2 -1 1 2 21.41 2.18 4.1507 0 2 1 2 21.43 14.08 4.1465 -1 2 1 2 21.43 2.05 4.1463 0 -2 1 2 21.46 16.06 4.1404 -1 -2 1 2 24.27 4.93 3.6676 -2 2 0 2 24.28 2.61 3.6653 2 2 0 2 24.53 5.28 3.6295 2 0 1 2 24.61 2.27 3.6174 1 2 1 2 24.62 1.77 3.6155 1 -2 1 2 24.67 1.78 3.6090 -2 2 1 2 25.64 1.29 3.4746 0 0 2 2 25.73 1.28 3.4628 -2 0 2 2 26.02 5.14 3.4249 2 1 1 2 26.02 9.84 3.4246 2 -1 1 2 26.12 1.04 3.4119 -3 1 1 2 26.14 3.19 3.4093 -3 -1 1 2 27.06 1.22 3.2948 0 1 2 2 27.08 3.15 3.2926 0 -1 2 2 27.13 28.45 3.2872 -3 1 0 2 27.14 37.22 3.2860 3 1 0 2 27.14 4.39 3.2852 -2 1 2 2 27.17 1.64 3.2821 -2 -1 2 2 27.25 3.38 3.2728 -1 3 0 2 27.26 2.39 3.2716 1 3 0 2 28.95 2.45 3.0843 -1 -3 1 2 29.78 100.00 2.9999 -1 2 2 2 29.82 98.45 2.9960 -1 -2 2 2 30.92 1.19 2.8917 1 1 2 2 30.99 9.87 2.8855 0 2 2 2 31.02 8.91 2.8825 0 -2 2 2 31.05 48.43 2.8801 -3 2 0 2 31.06 9.32 2.8793 -2 2 2 2 31.07 55.14 2.8784 3 2 0 2 31.09 1.28 2.8764 -3 -1 2 2 31.11 10.31 2.8752 -2 -2 2 2 31.12 18.02 2.8740 -2 3 0 2 31.14 16.73 2.8724 2 3 0 2 31.39 1.04 2.8496 1 3 1 2 32.56 4.08 2.7499 -4 0 1 2 33.72 1.13 2.6583 -4 1 1 2 34.45 1.28 2.6030 1 2 2 2 34.50 4.38 2.5997 4 0 0 2 34.63 1.17 2.5905 -3 -2 2 2 34.70 6.41 2.5855 0 4 0 2 35.48 12.07 2.5299 2 0 2 2 35.68 12.94 2.5162 -4 0 2 2 35.78 8.81 2.5095 -1 4 0 2 35.79 7.40 2.5087 1 4 0 2 36.56 3.60 2.4577 2 1 2 2 36.57 6.41 2.4571 2 -1 2 2 36.70 1.04 2.4486 0 3 2 2 36.74 1.46 2.4459 0 -3 2 2 36.75 6.32 2.4457 -4 1 2 2 36.76 5.83 2.4451 -3 3 0 2 36.76 1.34 2.4450 -2 3 2 2 36.77 3.22 2.4441 -4 -1 2 2 36.78 1.93 2.4435 3 3 0 2 36.82 1.12 2.4412 -2 -3 2 2 38.76 2.04 2.3233 -4 2 0 2 38.78 2.75 2.3221 4 2 0 2 39.73 4.59 2.2687 1 3 2 2 39.76 5.60 2.2670 1 -3 2 2 39.84 5.29 2.2630 -3 3 2 2 39.90 4.79 2.2596 -3 -3 2 2 42.71 1.76 2.1168 -1 4 2 2 42.77 1.74 2.1141 -1 -4 2 2 43.59 2.46 2.0763 -4 3 0 2 43.61 2.13 2.0754 0 4 2 2 43.62 2.84 2.0750 4 3 0 2 43.64 1.21 2.0742 -5 -1 2 2 43.66 1.84 2.0732 -2 4 2 2 43.66 2.32 2.0731 0 -4 2 2 43.73 1.56 2.0702 -2 -4 2 2 44.41 9.47 2.0401 2 3 2 2 44.43 11.37 2.0392 -5 1 0 2 44.43 8.79 2.0391 2 -3 2 2 44.44 10.65 2.0387 5 1 0 2 44.55 7.91 2.0338 -4 3 2 2 44.61 8.53 2.0311 -4 -3 2 2 44.67 1.38 2.0284 1 5 0 2 46.26 3.24 1.9624 1 4 2 2 46.30 4.38 1.9608 1 -4 2 2 46.35 4.08 1.9588 -3 4 2 2 46.43 3.33 1.9559 -3 -4 2 2 49.55 39.66 1.8397 -2 0 4 2 50.46 11.36 1.8087 2 4 2 2 50.48 10.37 1.8078 2 -4 2 2 50.56 1.10 1.8054 5 1 1 2 50.58 10.40 1.8045 -4 4 2 2 50.60 1.19 1.8039 1 -3 3 2 50.66 11.36 1.8020 -4 -4 2 2 51.10 3.31 1.7875 4 1 2 2 51.10 3.48 1.7874 4 -1 2 2 51.34 3.33 1.7798 -6 1 2 2 51.36 3.49 1.7791 -6 -1 2 2 51.38 1.12 1.7782 0 5 2 2 51.43 2.05 1.7767 -3 5 0 2 51.46 3.04 1.7757 3 5 0 2 51.50 1.13 1.7745 -2 -5 2 2 51.52 1.38 1.7737 -2 4 3 2 51.60 1.37 1.7712 -2 -4 3 2 53.61 6.31 1.7095 -6 1 0 2 53.62 5.26 1.7091 6 1 0 2 53.75 7.70 1.7055 1 5 2 2 53.79 8.69 1.7043 1 -5 2 2 53.82 9.11 1.7033 -3 5 2 2 53.90 8.09 1.7009 -3 -5 2 2 56.21 1.51 1.6364 -2 6 0 2 56.23 1.87 1.6358 2 6 0 2 57.25 2.73 1.6091 1 1 4 2 57.27 2.31 1.6086 1 -1 4 2 57.38 3.52 1.6059 4 3 2 2 57.38 3.77 1.6057 4 -3 2 2 57.52 1.92 1.6022 -5 1 4 2 57.55 2.06 1.6015 -5 -1 4 2 57.58 3.75 1.6008 -6 3 2 2 57.64 3.57 1.5992 -6 -3 2 2 59.16 1.52 1.5617 -1 6 2 2 59.23 1.48 1.5600 -1 -6 2 2 59.49 4.58 1.5539 1 2 4 2 59.51 5.06 1.5534 5 1 2 2 59.51 4.37 1.5534 5 -1 2 2 59.52 4.33 1.5530 1 -2 4 2 59.56 1.78 1.5521 0 3 4 2 59.62 1.96 1.5507 0 -3 4 2 59.70 1.83 1.5488 -6 3 0 2 59.73 2.23 1.5482 -4 3 4 2 59.73 2.46 1.5481 6 3 0 2 59.75 4.73 1.5478 -5 2 4 2 59.77 4.11 1.5473 -7 1 2 2 59.79 4.95 1.5468 -7 -1 2 2 59.80 4.85 1.5465 -5 -2 4 2 59.81 1.94 1.5463 -4 -3 4 2 59.87 1.91 1.5448 0 6 2 2 59.91 1.67 1.5440 -2 6 2 2 59.92 1.02 1.5438 -3 6 0 2 59.93 1.64 1.5434 0 -6 2 2 59.95 1.12 1.5430 3 6 0 2 59.99 1.90 1.5421 -2 -6 2 2 61.86 1.76 1.5000 -2 4 4 2 61.95 1.65 1.4980 -2 -4 4 2 62.53 1.15 1.4855 -1 4 4 2 62.61 1.16 1.4838 -3 4 4 2 62.61 1.11 1.4837 -1 -4 4 2 62.70 1.11 1.4817 -3 -4 4 2 63.40 3.22 1.4670 -5 5 0 2 63.45 3.27 1.4661 5 5 0 2 63.60 1.10 1.4629 -1 7 0 2 63.62 1.34 1.4626 1 7 0 2 64.89 2.52 1.4370 -4 6 0 2 64.93 2.63 1.4362 4 6 0 2 65.35 1.65 1.4280 -7 2 0 2 65.37 1.80 1.4276 7 2 0 2 65.69 4.90 1.4214 -2 7 0 2 65.71 4.46 1.4209 2 7 0 2 67.92 1.55 1.3801 6 0 2 2 68.08 1.02 1.3773 0 -1 5 2 68.21 1.80 1.3749 -8 0 2 2 68.51 1.93 1.3696 3 1 4 2 68.52 2.17 1.3694 3 -1 4 2 68.91 2.21 1.3626 -7 1 4 2 68.94 1.88 1.3621 -7 -1 4 2 71.00 1.32 1.3275 -5 6 0 2 73.87 1.91 1.2830 -1 8 0 2 73.88 2.01 1.2828 1 8 0 2 75.75 1.08 1.2556 4 1 4 2 75.76 1.33 1.2555 4 -1 4 2 76.22 1.33 1.2491 -8 1 4 2 80.45 2.32 1.1937 -3 2 6 2 80.51 2.37 1.1930 -3 -2 6 2 83.16 1.62 1.1616 -8 4 0 2 83.21 1.14 1.1611 8 4 0 2 84.26 1.09 1.1493 3 5 4 2 84.57 1.52 1.1458 4 7 2 2 84.58 1.57 1.1457 4 -7 2 2 84.60 1.08 1.1454 -7 5 4 2 84.71 1.71 1.1443 -6 7 2 2 84.74 1.12 1.1439 -7 -5 4 2 84.83 1.55 1.1429 -6 -7 2 2 86.41 1.25 1.1261 0 7 4 2 86.53 1.23 1.1249 0 -7 4 2 86.54 1.36 1.1247 -4 7 4 2 86.70 1.28 1.1230 -4 -7 4 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.