Enstatite
Hugh-Jones D A, Angel R J
American Mineralogist 79 (1994) 405-410
A compressional study of MgSiO3 orthoenstatite up to 8.5 GPa
Sample: P = 1.04 GPa
_database_code_amcsd 0001645
CELL PARAMETERS: 18.1860 8.7820 5.1610 90.000 90.000 90.000
SPACE GROUP: Pbca
X-RAY WAVELENGTH: 1.541838
Cell Volume: 824.260
Density (g/cm3): 3.235
MAX. ABS. INTENSITY / VOLUME**2: 5.545061736
RIR: 0.558
RIR based on corundum from Acta Crystallographica A38 (1982) 733-739
2-THETA INTENSITY D-SPACING H K L Multiplicity
14.02 2.15 6.3169 2 1 0 4
20.22 13.70 4.3910 0 2 0 2
20.55 3.58 4.3220 1 1 1 8
22.24 3.21 3.9967 2 1 1 8
27.11 36.34 3.2892 1 2 1 8
28.06 20.77 3.1800 4 1 1 8
28.26 53.59 3.1584 4 2 0 4
28.44 99.97 3.1388 2 2 1 8
30.53 49.92 2.9283 3 2 1 8
31.22 100.00 2.8652 6 1 0 4
31.78 26.54 2.8161 5 1 1 8
32.12 2.37 2.7865 2 3 0 4
33.26 33.22 2.6940 4 2 1 8
35.60 49.82 2.5217 1 3 1 8
35.85 3.83 2.5050 6 1 1 8
36.18 69.09 2.4825 2 0 2 4
36.50 29.07 2.4618 5 2 1 8
36.51 1.52 2.4613 4 3 0 4
36.65 9.03 2.4519 2 3 1 8
37.89 6.67 2.3743 3 0 2 4
38.34 7.03 2.3476 3 3 1 8
39.31 1.63 2.2920 3 1 2 8
39.65 2.08 2.2733 8 0 0 2
40.18 1.19 2.2442 4 0 2 4
40.19 6.27 2.2436 7 1 1 8
40.61 4.34 2.2216 4 3 1 8
41.53 2.40 2.1743 4 1 2 8
42.95 2.08 2.1056 6 3 0 4
42.98 31.15 2.1046 5 0 2 4
43.32 2.86 2.0885 3 2 2 8
43.38 21.79 2.0859 5 3 1 8
44.14 6.77 2.0517 7 2 1 8
44.26 14.72 2.0467 5 1 2 8
44.77 3.09 2.0244 8 1 1 8
44.90 1.38 2.0188 8 2 0 4
45.16 10.81 2.0079 1 4 1 8
45.38 1.15 1.9983 4 2 2 8
45.90 6.32 1.9771 4 4 0 4
46.02 13.51 1.9722 2 4 1 8
46.58 28.74 1.9496 6 3 1 8
47.41 1.15 1.9175 6 1 2 8
47.43 1.64 1.9167 3 4 1 8
48.42 6.05 1.8800 8 2 1 8
49.36 2.51 1.8462 4 4 1 8
49.42 1.80 1.8440 3 3 2 8
49.80 5.34 1.8308 7 0 2 4
50.92 6.04 1.7935 6 2 2 8
51.30 1.12 1.7810 4 3 2 8
51.30 8.05 1.7808 10 1 0 4
51.76 7.46 1.7661 5 4 1 8
53.11 9.70 1.7245 2 5 0 4
54.08 8.79 1.6958 8 3 1 8
54.29 5.54 1.6898 7 2 2 8
54.59 1.15 1.6811 6 4 1 8
54.83 8.75 1.6745 8 1 2 8
55.16 1.63 1.6651 1 4 2 8
55.35 1.86 1.6599 2 1 3 8
55.91 5.64 1.6446 2 4 2 8
56.24 2.61 1.6356 2 5 1 8
56.59 4.69 1.6264 3 1 3 8
57.14 2.69 1.6120 3 4 2 8
57.54 16.51 1.6018 0 2 3 4
57.78 13.34 1.5956 1 2 3 8
57.81 1.38 1.5948 7 4 1 8
57.97 7.46 1.5909 9 0 2 4
58.29 12.36 1.5828 9 3 1 8
58.44 2.58 1.5792 8 4 0 4
59.00 2.39 1.5655 9 1 2 8
59.16 1.80 1.5616 4 5 1 8
60.97 7.61 1.5197 6 5 0 4
61.15 6.66 1.5155 12 0 0 2
61.30 1.97 1.5122 5 5 1 8
61.37 1.32 1.5108 4 2 3 8
62.05 3.26 1.4958 9 2 2 8
62.79 26.08 1.4799 10 3 1 8
62.87 31.83 1.4783 1 3 3 8
63.03 2.25 1.4749 6 1 3 8
63.46 1.25 1.4659 5 2 3 8
63.54 1.80 1.4641 6 4 2 8
63.56 3.08 1.4638 2 3 3 8
63.57 25.03 1.4637 0 6 0 2
65.99 1.08 1.4156 7 1 3 8
66.18 9.64 1.4120 3 5 2 8
66.39 1.02 1.4080 10 2 2 8
66.50 1.05 1.4061 7 4 2 8
66.61 1.01 1.4039 1 6 1 8
67.26 13.78 1.3921 11 0 2 4
67.55 24.34 1.3866 11 3 1 8
67.90 1.20 1.3804 12 2 1 8
68.21 5.46 1.3749 11 1 2 8
68.30 2.73 1.3734 5 3 3 8
68.86 4.06 1.3635 7 2 3 8
69.40 5.52 1.3541 0 4 3 4
69.62 2.90 1.3504 1 4 3 8
70.71 6.21 1.3322 6 3 3 8
71.37 2.02 1.3216 3 4 3 8
72.59 13.10 1.3023 12 3 1 8
72.89 1.44 1.2978 4 4 3 8
73.23 10.78 1.2926 12 1 2 8
73.53 2.10 1.2881 7 3 3 8
73.60 6.04 1.2870 1 0 4 4
73.73 2.91 1.2850 14 1 0 4
74.51 3.50 1.2734 1 1 4 8
75.21 2.43 1.2634 10 5 0 4
75.31 1.08 1.2620 3 0 4 4
75.39 13.26 1.2608 2 6 2 8
76.38 1.25 1.2469 14 1 1 8
76.45 4.44 1.2459 3 6 2 8
76.79 3.94 1.2412 4 0 4 4
78.10 5.39 1.2237 8 5 2 8
78.54 1.15 1.2179 2 5 3 8
79.59 2.92 1.2045 5 1 4 8
79.59 2.71 1.2045 3 5 3 8
79.82 3.61 1.2016 5 6 2 8
81.66 5.26 1.1791 9 5 2 8
81.88 1.16 1.1765 6 1 4 8
82.27 2.28 1.1719 5 2 4 8
83.67 1.43 1.1559 5 7 1 8
84.25 2.40 1.1494 10 3 3 8
84.58 1.63 1.1457 7 1 4 8
84.80 1.39 1.1432 7 6 2 8
85.41 1.63 1.1366 16 0 0 2
86.52 1.11 1.1249 9 4 3 8
86.79 1.31 1.1221 8 0 4 4
89.92 1.65 1.0910 11 5 2 8
================================================================================
XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs
For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.