Innsbruckite Kruger H, Tropper P, Haefeker U, Kaindl R, Tribus M, Kahlenberg V, Wikete C, Fuchs M R, Olieric V Mineralogical Magazine 78 (2014) 1613-1627 Innsbruckite, Mn33(Si2O5)14(OH)38 - a new mineral from the Tyrol, Austria Locality: Innsbruck, Tyrol, Austria _database_code_amcsd 0020609 CELL PARAMETERS: 17.2760 35.9570 7.2560 90.000 91.359 90.000 SPACE GROUP: Cm X-RAY WAVELENGTH: 1.541838 Cell Volume: 4506.109 Density (g/cm3): 3.217 MAX. ABS. INTENSITY / VOLUME**2: 18.55309784 RIR: 1.878 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 5.68 1.10 15.5683 1 1 0 2 8.98 1.41 9.8469 1 3 0 2 9.84 1.41 8.9893 0 4 0 2 12.20 100.00 7.2540 0 0 1 1 13.36 1.35 6.6297 -1 1 1 2 13.58 3.00 6.5221 1 1 1 2 14.22 2.66 6.2276 2 4 0 2 15.07 1.52 5.8784 -1 3 1 2 15.27 1.36 5.8030 1 3 1 2 15.70 1.89 5.6452 0 4 1 2 17.09 3.30 5.1894 3 3 0 2 18.94 3.04 4.6857 2 4 1 2 19.75 6.55 4.4946 0 8 0 2 19.75 2.00 4.4943 3 5 0 2 20.83 5.81 4.2640 -3 3 1 2 21.75 1.61 4.0867 -1 7 1 2 21.89 1.01 4.0611 1 7 1 2 22.85 5.59 3.8921 4 4 0 2 23.09 3.08 3.8525 -3 5 1 2 23.28 5.51 3.8207 0 8 1 2 24.54 29.06 3.6270 0 0 2 1 25.05 4.16 3.5554 0 2 2 2 25.09 14.90 3.5492 -1 1 2 2 25.33 15.58 3.5158 1 1 2 2 26.07 2.26 3.4185 -1 3 2 2 26.21 5.13 3.3995 4 4 1 2 26.30 1.28 3.3886 1 3 2 2 26.50 1.58 3.3635 0 4 2 2 28.26 1.19 3.1577 -2 4 2 2 29.75 1.26 3.0032 -3 3 2 2 30.37 1.00 2.9435 3 3 2 2 30.51 1.11 2.9297 -1 7 2 2 31.07 6.93 2.8785 6 0 0 1 31.47 8.83 2.8426 3 11 0 2 33.21 1.18 2.6976 -6 0 1 1 33.73 77.09 2.6572 -3 11 1 2 33.77 41.21 2.6541 6 0 1 1 33.90 3.03 2.6441 -2 12 1 2 34.01 4.15 2.6362 3 11 1 2 34.09 1.64 2.6302 2 12 1 2 34.15 1.20 2.6256 6 2 1 2 34.56 1.82 2.5952 -4 10 1 2 36.43 1.47 2.4664 5 1 2 2 36.53 1.59 2.4599 -2 10 2 2 36.68 1.03 2.4502 -3 9 2 2 37.18 2.97 2.4180 0 0 3 1 38.04 1.39 2.3652 -3 13 1 2 38.46 1.41 2.3408 -4 12 1 2 38.79 1.07 2.3216 4 12 1 2 39.50 5.89 2.2812 -6 0 2 1 40.07 32.05 2.2501 -3 11 2 2 40.47 14.03 2.2291 6 0 2 1 40.55 10.38 2.2247 3 11 2 2 40.75 1.21 2.2142 -4 10 2 2 46.42 1.80 1.9563 5 1 3 2 48.60 2.45 1.8735 -6 0 3 1 49.18 7.98 1.8525 -3 11 3 2 49.38 3.28 1.8457 -2 12 3 2 49.73 2.28 1.8335 -4 10 3 2 49.79 4.83 1.8312 3 11 3 2 49.82 4.60 1.8302 6 0 3 1 50.10 1.25 1.8208 6 2 3 2 52.45 1.03 1.7447 -3 13 3 2 52.70 3.47 1.7368 -4 12 3 2 53.77 2.80 1.7049 7 1 3 2 55.53 18.84 1.6549 9 11 0 2 56.29 8.21 1.6344 0 22 0 2 56.81 8.92 1.6207 -9 11 1 2 57.36 6.61 1.6063 9 11 1 2 57.83 7.67 1.5944 0 22 1 2 58.06 1.08 1.5887 5 1 4 2 58.19 1.56 1.5854 2 10 4 2 59.61 1.49 1.5511 -6 0 4 1 60.21 3.54 1.5370 -3 11 4 2 60.88 1.10 1.5217 2 12 4 2 60.92 3.15 1.5208 3 11 4 2 61.03 1.50 1.5182 6 0 4 1 61.07 1.66 1.5174 -9 11 2 2 62.13 2.00 1.4941 9 11 2 2 62.31 1.62 1.4901 0 22 2 2 62.93 2.02 1.4768 -7 1 4 2 64.20 2.31 1.4507 4 12 4 2 65.70 1.72 1.4213 6 22 0 2 65.86 2.93 1.4182 -12 0 1 1 67.28 5.89 1.3917 6 22 1 2 67.99 1.04 1.3789 -9 11 3 2 69.72 2.12 1.3488 -12 0 2 1 70.94 1.49 1.3286 -6 22 2 2 71.59 3.19 1.3181 6 22 2 2 73.66 1.71 1.2861 3 11 5 2 78.45 1.68 1.2191 6 22 3 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.