Pargasite Raudsepp M, Turnock A C, Hawthorne F C, Sherriff B L, Hartman J S American Mineralogist 72 (1987) 580-593 Characterization of synthetic pargasitic amphiboles (NaCa2Mg4M3+Si6Al2O22(OH,F)2; M3+ = Al,Cr,Ga,Sc,In) by infrared spectroscopy, Rietveld structure refinement, and 27Al, 29Si, and 19F MAS NMR spectroscopy Sample: ScPA-A5 _database_code_amcsd 0001081 CELL PARAMETERS: 9.9405 18.0940 5.2986 90.000 105.364 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 918.965 Density (g/cm3): 3.050 MAX. ABS. INTENSITY / VOLUME**2: 4.534804087 RIR: 0.484 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.78 27.62 9.0470 0 2 0 2 10.44 37.54 8.4701 1 1 0 4 17.36 2.48 5.1092 0 0 1 2 17.37 1.73 5.1048 1 3 0 4 18.05 20.38 4.9132 -1 1 1 4 19.63 24.16 4.5235 0 4 0 2 20.98 3.30 4.2351 2 2 0 4 22.33 8.63 3.9820 1 1 1 4 22.82 16.58 3.8966 -1 3 1 4 23.95 1.76 3.7159 -2 2 1 4 26.36 74.89 3.3806 1 3 1 4 27.11 53.40 3.2896 2 4 0 4 28.37 76.48 3.1464 3 1 0 4 28.72 1.30 3.1086 2 0 1 2 29.19 3.03 3.0591 -3 1 1 4 29.50 1.17 3.0279 -2 4 1 4 30.27 4.89 2.9523 -1 5 1 4 30.40 62.37 2.9399 2 2 1 4 31.69 15.55 2.8234 3 3 0 4 32.44 54.11 2.7598 -3 3 1 4 33.08 100.00 2.7079 1 5 1 4 34.54 71.82 2.5970 0 6 1 4 35.13 13.77 2.5546 0 0 2 2 35.16 85.43 2.5525 -2 0 2 2 35.16 2.79 2.5524 2 6 0 4 36.58 1.42 2.4566 -2 2 2 4 36.97 2.67 2.4313 -4 0 1 2 37.09 6.81 2.4242 -2 6 1 4 37.53 1.19 2.3963 4 0 0 2 37.55 11.60 2.3951 3 5 0 4 38.20 40.38 2.3559 -3 5 1 4 38.34 28.33 2.3480 -4 2 1 4 39.06 26.59 2.3061 -1 7 1 4 39.20 14.40 2.2983 -3 1 2 4 39.94 4.55 2.2575 3 3 1 4 40.56 5.09 2.2244 0 4 2 4 40.58 8.43 2.2230 -2 4 2 4 41.34 2.52 2.1838 1 7 1 4 41.73 45.92 2.1645 2 6 1 4 41.76 5.65 2.1629 -3 3 2 4 42.28 6.45 2.1377 -1 5 2 4 44.38 30.37 2.0410 2 0 2 2 44.46 19.93 2.0378 -4 0 2 2 44.87 18.41 2.0199 3 5 1 4 45.12 5.88 2.0096 3 7 0 4 45.68 5.61 1.9863 -3 7 1 4 45.89 1.93 1.9776 -2 8 1 4 46.13 6.65 1.9676 1 9 0 4 46.54 3.27 1.9513 -3 5 2 4 47.04 1.79 1.9318 4 2 1 4 47.71 10.88 1.9064 5 1 0 4 48.07 4.15 1.8928 -4 6 1 4 48.68 10.87 1.8706 -1 9 1 4 48.96 2.04 1.8604 2 4 2 4 49.03 4.53 1.8580 -4 4 2 4 49.25 5.17 1.8501 -1 7 2 4 49.92 5.05 1.8270 5 3 0 4 50.44 4.10 1.8094 0 10 0 2 51.64 3.51 1.7701 3 1 2 4 51.73 5.03 1.7673 -5 1 2 4 53.73 2.60 1.7060 3 3 2 4 53.74 3.64 1.7056 0 10 1 4 53.88 3.56 1.7016 3 9 0 4 54.13 1.32 1.6942 -3 1 3 4 54.18 6.38 1.6928 -2 8 2 4 54.18 3.49 1.6928 2 10 0 4 54.33 12.38 1.6887 -1 3 3 4 54.37 1.47 1.6874 -3 9 1 4 54.85 10.03 1.6737 0 2 3 4 55.58 29.86 1.6536 4 6 1 4 55.90 9.21 1.6448 4 8 0 4 56.79 12.13 1.6212 1 11 0 4 57.71 6.74 1.5975 6 0 0 2 57.72 1.44 1.5972 5 3 1 4 58.33 26.50 1.5820 -1 5 3 4 58.84 3.85 1.5695 -5 7 1 4 59.47 10.95 1.5543 4 0 2 2 59.57 14.89 1.5519 -6 0 2 2 60.09 1.29 1.5398 5 7 0 4 60.98 8.01 1.5194 1 9 2 4 60.99 34.31 1.5191 -2 6 3 4 61.02 2.92 1.5185 -3 9 2 4 61.22 5.32 1.5139 -4 8 2 4 61.50 16.59 1.5078 0 12 0 2 61.58 6.17 1.5061 5 5 1 4 62.97 2.02 1.4761 -2 10 2 4 63.26 3.17 1.4699 4 4 2 4 63.36 3.20 1.4679 -6 4 2 4 63.39 1.56 1.4673 1 5 3 4 63.46 2.25 1.4658 2 2 3 4 63.62 5.66 1.4625 3 11 0 4 64.03 3.76 1.4542 -1 7 3 4 64.07 2.94 1.4534 -3 11 1 4 64.16 1.23 1.4515 -4 10 1 4 64.20 43.68 1.4507 -6 6 1 4 64.43 1.01 1.4462 0 12 1 4 64.72 2.72 1.4403 -5 3 3 4 64.82 1.56 1.4383 2 12 0 4 65.69 1.98 1.4213 -3 7 3 4 65.99 1.14 1.4156 -4 6 3 4 66.07 1.08 1.4142 -2 12 1 4 66.34 1.05 1.4090 -5 9 1 4 66.61 2.28 1.4040 6 2 1 4 67.80 1.02 1.3823 -7 3 1 4 68.35 6.59 1.3724 -5 5 3 4 68.75 2.70 1.3654 7 1 0 4 68.77 13.69 1.3651 5 1 2 4 69.47 2.74 1.3530 -4 10 2 4 70.04 1.08 1.3435 -6 2 3 4 70.13 5.85 1.3419 1 11 2 4 70.17 5.23 1.3413 -3 11 2 4 70.54 4.52 1.3351 5 3 2 4 70.70 8.71 1.3325 2 6 3 4 70.79 3.07 1.3309 -5 9 2 4 71.23 2.09 1.3238 -1 9 3 4 71.35 10.43 1.3219 -7 5 1 4 71.63 1.26 1.3174 1 13 1 4 72.16 6.30 1.3090 -1 1 4 4 72.20 2.52 1.3085 -3 1 4 4 72.43 1.54 1.3049 6 8 0 4 72.82 1.82 1.2989 -3 9 3 4 72.84 5.14 1.2985 0 12 2 4 72.86 14.42 1.2982 -2 12 2 4 73.69 2.74 1.2856 6 6 1 4 73.90 1.73 1.2825 -1 3 4 4 73.94 2.66 1.2819 -3 3 4 4 74.03 1.89 1.2805 5 5 2 4 74.09 2.14 1.2796 -6 8 2 4 74.25 3.90 1.2773 0 0 4 2 74.32 5.33 1.2762 -4 0 4 2 74.32 1.07 1.2762 4 12 0 4 76.87 1.82 1.2401 0 10 3 4 77.48 3.99 1.2320 -2 14 1 4 77.62 2.42 1.2300 4 2 3 4 77.68 1.45 1.2292 0 4 4 4 78.30 1.69 1.2211 -6 10 1 4 79.41 8.22 1.2067 -5 11 2 4 79.83 1.03 1.2014 -1 11 3 4 79.95 1.01 1.1999 -4 10 3 4 80.02 1.28 1.1990 4 12 1 4 80.09 3.10 1.1982 8 0 0 2 82.09 2.40 1.1740 -8 4 2 4 83.29 5.05 1.1601 2 0 4 2 83.58 2.18 1.1568 1 15 1 4 83.90 1.00 1.1532 0 14 2 4 84.36 2.54 1.1481 2 10 3 4 85.87 3.82 1.1317 7 9 0 4 85.89 1.79 1.1316 5 9 2 4 86.33 1.32 1.1269 3 9 3 4 86.39 1.29 1.1263 5 13 0 4 86.77 4.12 1.1223 -6 4 4 4 87.22 1.79 1.1177 -7 7 3 4 87.64 1.63 1.1134 5 3 3 4 88.57 1.23 1.1042 0 16 1 4 89.09 1.84 1.0990 -1 9 4 4 89.39 1.20 1.0961 3 13 2 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.