Matioliite Atencio D, Coutinho J M V, Mascarenhas Y P, Ellena J A American Mineralogist 91 (2006) 1932-1936 Matioliite, the Mg-analogue of burangaite, from Gentil mine, Mendes Pimentel, Minas Gerais, Brazil, and other occurrences Locality: Gentil mine, Mendes Pimentel, Minas Gerais, Brazil Sample: T = 120 K _database_code_amcsd 0004259 CELL PARAMETERS: 25.0750 5.0470 13.4370 90.000 110.970 90.000 SPACE GROUP: C2/c X-RAY WAVELENGTH: 1.541838 Cell Volume: 1587.872 Density (g/cm3): 2.942 MAX. ABS. INTENSITY / VOLUME**2: 4.187146534 RIR: 0.463 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 7.55 36.24 11.7071 2 0 0 2 13.42 13.66 6.5997 -2 0 2 2 14.12 3.10 6.2735 0 0 2 2 15.14 7.45 5.8536 4 0 0 2 17.98 50.77 4.9337 1 1 0 4 18.28 65.16 4.8536 2 0 2 2 19.83 2.28 4.4779 1 1 1 4 20.78 13.61 4.2750 -3 1 1 4 20.96 2.55 4.2381 3 1 0 4 22.06 34.86 4.0285 -1 1 2 4 22.10 12.73 4.0213 -6 0 2 2 22.79 3.25 3.9024 6 0 0 2 22.93 5.32 3.8788 -3 1 2 4 23.42 15.04 3.7977 3 1 1 4 23.77 4.88 3.7434 1 1 2 4 24.23 3.54 3.6740 4 0 2 2 25.03 30.28 3.5572 -5 1 1 4 25.96 3.77 3.4328 5 1 0 4 26.66 7.88 3.3438 -2 0 4 2 26.88 51.89 3.3165 -3 1 3 4 26.89 3.19 3.3160 -1 1 3 4 27.02 4.05 3.2998 -4 0 4 2 28.45 37.36 3.1368 0 0 4 2 28.67 48.25 3.1134 -8 0 2 2 28.71 4.69 3.1099 5 1 1 4 29.00 100.00 3.0790 -5 1 3 4 29.01 75.93 3.0779 1 1 3 4 29.47 5.17 3.0313 -6 0 4 2 30.54 1.51 2.9268 8 0 0 2 30.70 58.85 2.9119 -7 1 1 4 30.97 1.45 2.8875 -7 1 2 4 31.02 5.83 2.8830 6 0 2 2 32.03 35.50 2.7943 -3 1 4 4 32.07 2.69 2.7905 2 0 4 2 32.10 9.11 2.7881 7 1 0 4 32.65 3.99 2.7423 -1 1 4 4 32.86 2.66 2.7254 5 1 2 4 32.86 1.25 2.7253 -7 1 3 4 32.88 1.58 2.7240 3 1 3 4 33.58 3.76 2.6687 -8 0 4 2 34.99 26.38 2.5646 7 1 1 4 35.58 29.44 2.5235 0 2 0 2 35.82 1.04 2.5072 -10 0 2 2 36.42 1.30 2.4668 2 2 0 4 36.90 2.13 2.4357 -9 1 2 4 37.23 1.88 2.4152 -9 1 1 4 37.69 6.42 2.3867 2 2 1 4 37.95 6.69 2.3707 -3 1 5 4 38.01 3.65 2.3676 -9 1 3 4 38.03 5.51 2.3664 5 1 3 4 38.31 11.35 2.3497 8 0 2 2 38.45 1.97 2.3414 10 0 0 2 38.48 9.70 2.3392 -5 1 5 4 38.49 2.56 2.3387 -4 2 1 4 38.90 2.10 2.3153 3 1 4 4 39.50 1.27 2.2814 -4 2 2 4 40.28 3.67 2.2390 2 2 2 4 40.56 3.42 2.2241 -7 1 5 4 41.59 1.94 2.1715 1 1 5 4 41.81 1.34 2.1607 0 2 3 4 41.83 1.12 2.1595 -6 2 1 4 42.98 1.09 2.1046 6 0 4 2 43.27 4.50 2.0912 0 0 6 2 43.57 3.30 2.0771 -11 1 2 4 43.91 2.22 2.0619 5 1 4 4 44.00 5.79 2.0580 2 2 3 4 44.01 3.15 2.0577 -9 1 5 4 44.06 1.46 2.0553 -11 1 3 4 44.08 2.97 2.0542 7 1 3 4 44.33 36.77 2.0433 -11 1 1 4 44.42 3.33 2.0394 -5 1 6 4 44.74 1.54 2.0258 6 2 1 4 45.01 25.96 2.0143 -2 2 4 4 45.24 13.43 2.0045 -4 2 4 4 45.76 3.21 1.9826 -11 1 4 4 45.83 1.12 1.9798 -1 1 6 4 45.97 1.04 1.9743 10 0 2 2 46.17 1.26 1.9662 0 2 4 4 46.31 3.87 1.9604 -8 2 2 4 46.54 2.50 1.9512 12 0 0 2 46.75 1.28 1.9429 -10 0 6 2 46.78 21.37 1.9418 2 0 6 2 46.84 3.34 1.9394 -6 2 4 4 47.46 1.01 1.9158 -8 2 3 4 47.47 2.02 1.9152 4 2 3 4 47.58 3.67 1.9112 8 2 0 4 47.91 12.16 1.8988 6 2 2 4 48.58 1.54 1.8739 -11 1 5 4 48.65 3.64 1.8717 2 2 4 4 49.34 1.02 1.8470 11 1 1 4 49.63 4.38 1.8370 8 0 4 2 50.91 9.95 1.7936 -5 1 7 4 51.37 1.34 1.7786 -10 2 2 4 51.95 2.68 1.7603 -14 0 4 2 52.01 1.39 1.7581 -10 2 3 4 52.39 1.96 1.7465 -11 1 6 4 53.01 1.44 1.7274 -8 2 5 4 53.27 1.14 1.7196 8 2 2 4 53.34 3.04 1.7176 11 1 2 4 53.38 1.68 1.7164 10 2 0 4 53.83 2.14 1.7031 -9 1 7 4 53.98 1.55 1.6987 12 0 2 2 54.06 4.08 1.6963 13 1 0 4 54.10 11.06 1.6952 -13 1 5 4 54.71 5.70 1.6778 -6 0 8 2 54.90 8.76 1.6724 14 0 0 2 55.41 3.01 1.6582 -6 2 6 4 55.42 3.64 1.6580 -2 2 6 4 55.83 1.91 1.6467 -3 3 1 4 56.15 4.51 1.6380 7 1 5 4 56.33 1.08 1.6333 -2 0 8 2 56.46 1.90 1.6299 -10 2 5 4 56.79 1.41 1.6211 -3 3 2 4 57.02 1.36 1.6150 3 3 1 4 57.20 6.52 1.6106 -8 2 6 4 57.21 1.47 1.6102 0 2 6 4 57.29 9.83 1.6082 -12 2 2 4 57.81 6.05 1.5950 -5 3 1 4 57.86 1.33 1.5936 4 2 5 4 57.88 4.75 1.5933 -5 1 8 4 58.17 1.26 1.5860 11 1 3 4 58.26 2.03 1.5836 -7 1 8 4 58.36 1.36 1.5812 -5 3 2 4 58.52 1.14 1.5772 -15 1 2 4 58.76 1.81 1.5714 -3 3 3 4 58.77 1.17 1.5711 -15 1 4 4 58.88 2.86 1.5684 0 0 8 2 59.37 10.08 1.5567 -16 0 4 2 59.51 1.03 1.5534 -16 0 2 2 59.91 7.39 1.5439 -5 3 3 4 59.92 1.48 1.5437 1 3 3 4 60.10 6.63 1.5395 -10 2 6 4 60.13 27.85 1.5389 2 2 6 4 60.89 2.32 1.5214 -7 3 1 4 61.04 3.74 1.5179 -7 3 2 4 61.15 2.08 1.5157 -12 0 8 2 62.18 3.22 1.4929 5 3 2 4 62.19 1.19 1.4926 3 3 3 4 62.70 1.38 1.4818 9 1 5 4 63.23 1.41 1.4706 8 0 6 2 63.51 1.37 1.4647 7 3 1 4 63.72 3.40 1.4605 11 1 4 4 63.94 5.89 1.4560 -14 2 2 4 64.03 7.87 1.4541 -12 2 6 4 64.55 3.78 1.4438 -14 2 4 4 64.66 1.32 1.4415 12 0 4 2 64.77 4.77 1.4394 -9 3 2 4 65.51 4.39 1.4248 15 1 1 4 65.83 1.18 1.4187 -5 3 5 4 66.04 1.39 1.4146 13 1 3 4 66.24 1.10 1.4109 -17 1 4 4 66.39 7.69 1.4080 -3 1 9 4 66.98 1.37 1.3971 -6 2 8 4 67.18 1.02 1.3935 -9 3 4 4 67.41 1.19 1.3893 -17 1 5 4 68.55 1.98 1.3689 -1 1 9 4 68.91 2.60 1.3627 10 2 4 4 68.91 1.33 1.3626 -14 2 6 4 68.95 3.27 1.3620 6 2 6 4 69.82 3.88 1.3471 -10 2 8 4 69.94 1.99 1.3450 11 1 5 4 70.00 2.71 1.3440 -11 3 1 4 70.07 1.13 1.3429 -5 3 6 4 70.22 1.47 1.3404 -18 0 6 2 71.21 2.63 1.3241 16 0 2 2 72.79 1.06 1.2993 -12 2 8 4 73.02 2.32 1.2958 14 0 4 2 74.47 1.38 1.2741 -19 1 3 4 74.50 1.33 1.2736 15 1 3 4 75.10 1.52 1.2650 -5 3 7 4 75.32 6.23 1.2617 0 4 0 2 75.82 1.00 1.2547 0 0 10 2 75.87 2.86 1.2539 3 1 9 4 76.32 1.12 1.2478 3 3 6 4 76.62 1.29 1.2435 2 4 1 4 76.81 1.11 1.2410 -1 3 7 4 76.98 1.89 1.2387 9 1 7 4 77.70 3.46 1.2290 -13 3 5 4 77.88 3.98 1.2266 13 1 5 4 78.29 1.19 1.2212 2 4 2 4 78.30 1.99 1.2210 4 2 8 4 79.29 4.35 1.2083 -19 1 7 4 79.42 1.37 1.2067 7 3 5 4 80.89 3.40 1.1883 -17 1 9 4 82.38 1.08 1.1706 0 4 4 4 82.49 3.43 1.1694 -8 4 2 4 82.66 1.35 1.1674 -11 1 11 4 82.67 1.84 1.1673 -19 1 8 4 87.78 2.49 1.1120 -14 2 10 4 88.45 2.09 1.1053 -3 3 9 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.