{\rtf1\ansi\deff0{\fonttbl{\f0\fnil\fcharset0 Courier New;}} {\*\generator Msftedit 5.41.15.1507;}\viewkind4\uc1\pard\lang1033\f0\fs20 Heterosite\par Diffraction data computed using the structure from the paper listed below, \par along with the cell parameters refined from the powder pattern for R050165\par Eventoff W, Martin R, Peacor D R\par American Mineralogist 57 (1972) 45-51\par The crystal structure of heterosite\par Locality: Fletcher Quarry, North Groton, New Hampshire, USA\par \par CELL PARAMETERS: 5.8300 9.7900 4.7690 90.000 90.000 90.000\par SPACE GROUP: Pmnb \par \par ATOM X Y Z OCCUPANCY ISO(B)\par Fe 0.25000 0.27700 0.94490 0.650 0.403\par Mn 0.25000 0.27700 0.94490 0.350 0.403\par P 0.25000 0.09350 0.39830 1.000 0.348\par O 0.25000 0.11760 0.71310 1.000 0.800\par O 0.25000 0.44170 0.16140 1.000 0.780\par O 0.04610 0.16840 0.25130 1.000 0.586\par \par X-RAY WAVELENGTH: 1.541838\par BOUNDS ON TWO THETA: 5.0 90.0\par LIMITS IMPOSED ON THE INDICES ARE: +/- 5 +/- 8 +/- 4\par MAX. ABS. INTENSITY / VOLUME**2: 14.78102461 \par The INTENSITY cut off value is 1.00\par \par 2-THETA INTENSITY D-SPACING H K L\par 18.12 75.59 4.8950 0 2 0\par 20.72 95.32 4.2874 0 1 1\par 23.73 22.23 3.7488 1 2 0\par 24.11 1.85 3.6913 1 0 1\par 25.79 96.59 3.4540 1 1 1\par 26.09 21.21 3.4159 0 2 1\par 30.33 34.32 2.9472 1 2 1\par 30.67 83.25 2.9150 2 0 0\par 33.27 13.27 2.6932 0 3 1\par 35.85 2.70 2.5045 2 2 0\par 36.76 100.00 2.4449 1 3 1\par 37.30 34.37 2.4106 2 1 1\par 38.87 17.54 2.3168 0 1 2\par 39.95 11.93 2.2567 1 4 0\par 40.69 9.18 2.2174 2 2 1\par 41.47 14.65 2.1775 0 4 1\par 41.96 9.92 2.1530 1 1 2\par 42.15 6.13 2.1437 0 2 2\par 44.41 3.24 2.0398 1 4 1\par 45.06 6.48 2.0120 1 2 2\par 45.87 9.76 1.9781 2 3 1\par 47.21 2.30 1.9253 0 3 2\par 48.57 2.38 1.8744 2 4 0\par 49.38 15.22 1.8457 2 0 2\par 49.88 4.23 1.8282 1 3 2\par 50.31 15.49 1.8137 2 1 2\par 50.73 2.69 1.7997 3 0 1\par 51.64 12.75 1.7700 3 1 1\par 52.93 11.28 1.7297 1 5 1\par 53.03 22.66 1.7270 2 2 2\par 53.66 9.58 1.7079 0 4 2\par 54.31 12.68 1.6891 3 2 1\par 56.11 11.72 1.6390 1 4 2\par 56.39 2.56 1.6317 0 6 0\par 57.35 1.98 1.6065 2 3 2\par 58.58 22.78 1.5759 3 3 1\par 58.76 17.34 1.5713 1 6 0\par 58.85 1.29 1.5691 0 1 3\par 60.87 9.41 1.5219 3 4 0\par 61.17 5.48 1.5152 1 1 3\par 61.31 1.84 1.5119 0 2 3\par 62.37 2.49 1.4889 3 1 2\par 63.09 3.18 1.4736 2 4 2\par 63.52 11.23 1.4647 1 5 2\par 63.57 15.28 1.4635 1 2 3\par 63.87 14.45 1.4575 4 0 0\par 65.57 14.29 1.4238 2 6 0\par 66.99 2.13 1.3969 4 2 0\par 67.48 1.19 1.3880 1 3 3\par 67.83 1.37 1.3817 2 1 3\par 67.93 4.42 1.3799 4 1 1\par 68.62 1.26 1.3677 3 3 2\par 69.85 3.51 1.3466 0 6 2\par 70.06 1.39 1.3430 2 5 2\par 70.11 13.40 1.3421 2 2 3\par 70.12 6.28 1.3421 0 7 1\par 71.16 3.71 1.3250 3 5 1\par 71.97 1.73 1.3120 1 6 2\par 72.77 10.05 1.2996 1 4 3\par 73.94 2.01 1.2818 4 3 1\par 76.18 7.01 1.2496 3 6 0\par 77.31 1.68 1.2341 0 5 3\par 77.35 4.08 1.2337 4 1 2\par 78.32 2.30 1.2208 3 1 3\par 78.45 8.73 1.2191 2 7 1\par 78.97 1.30 1.2124 2 4 3\par 79.25 1.51 1.2088 3 6 1\par 79.44 1.43 1.2064 0 7 2\par 79.53 2.52 1.2053 4 2 2\par 80.44 5.44 1.1939 3 5 2\par 80.49 4.35 1.1933 3 2 3\par 81.29 4.57 1.1835 0 1 4\par 83.16 1.24 1.1616 1 8 1\par 83.44 1.08 1.1584 0 2 4\par 85.43 2.55 1.1365 2 5 3\par 86.50 2.06 1.1251 5 1 1\par 87.51 2.30 1.1147 2 7 2\par 88.11 2.25 1.1087 4 4 2\par 89.06 7.65 1.0993 3 4 3\par 89.19 3.61 1.0980 2 8 1\par 89.34 7.28 1.0966 2 1 4\par ================================================================================\par XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs\par For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.\par \par }