Marialite Antao S M, Hassan I The Canadian Mineralogist 49 (2011) 581-586 Complete Al-Si order in scapolite Me37.5, ideally Ca3Na5[Al8Si16O48]Cl(CO3), and implications for antiphase domain boundaries (APBs) Locality: Lake Clear, Ontario, Canada _database_code_amcsd 0018479 CELL PARAMETERS: 12.0790 12.0790 7.5835 90.000 90.000 90.000 SPACE GROUP: P4_2/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 1106.443 Density (g/cm3): 2.633 MAX. ABS. INTENSITY / VOLUME**2: 10.25710004 RIR: 1.268 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.36 5.24 8.5411 1 1 0 4 13.79 8.16 6.4226 1 0 1 8 14.67 10.68 6.0395 2 0 0 4 20.18 2.09 4.3998 2 1 1 8 20.18 1.77 4.3998 1 2 1 8 20.80 5.44 4.2706 2 2 0 4 23.29 4.74 3.8197 1 3 0 4 23.29 37.48 3.8197 3 1 0 4 23.91 1.21 3.7211 2 2 1 8 25.04 18.26 3.5562 3 0 1 8 25.71 100.00 3.4656 1 1 2 8 29.14 72.26 3.0644 2 3 1 8 29.58 36.17 3.0197 4 0 0 4 31.42 4.22 2.8470 3 3 0 4 31.55 3.50 2.8354 2 2 2 8 32.77 16.22 2.7328 1 4 1 8 33.17 6.31 2.7009 2 4 0 4 33.29 39.15 2.6910 3 1 2 8 33.29 1.97 2.6910 1 3 2 8 39.13 8.21 2.3018 4 3 1 8 39.13 2.68 2.3018 3 4 1 8 39.58 1.27 2.2767 3 3 2 8 41.03 3.53 2.1999 4 2 2 8 42.01 3.47 2.1509 5 2 1 8 42.01 2.48 2.1509 2 5 1 8 42.21 10.63 2.1409 3 0 3 8 42.33 1.44 2.1353 4 4 0 4 43.70 3.38 2.0715 3 5 0 4 44.92 4.45 2.0178 3 2 3 8 44.92 2.18 2.0178 2 3 3 8 45.13 1.71 2.0090 5 1 2 8 45.13 2.52 2.0090 1 5 2 8 47.32 7.74 1.9210 6 1 1 8 47.32 2.18 1.9210 1 6 1 8 47.51 3.26 1.9138 4 1 3 8 47.51 12.45 1.9138 1 4 3 8 47.61 9.35 1.9099 6 2 0 4 47.61 1.07 1.9099 2 6 0 4 47.99 11.91 1.8959 0 0 4 2 49.81 1.46 1.8306 4 5 1 8 50.18 2.02 1.8179 5 3 2 8 50.18 3.92 1.8179 3 5 2 8 52.21 1.05 1.7519 6 3 1 8 52.21 2.57 1.7519 3 6 1 8 52.39 2.57 1.7465 5 0 3 8 53.65 2.31 1.7082 1 7 0 4 53.65 4.79 1.7082 7 1 0 4 53.74 2.04 1.7057 2 6 2 8 54.80 1.48 1.6751 4 6 0 4 56.80 3.88 1.6208 2 7 1 8 57.39 3.44 1.6057 4 0 4 8 58.16 1.03 1.5860 7 3 0 4 59.17 6.49 1.5616 1 6 3 8 59.17 1.56 1.5616 6 1 3 8 61.16 1.03 1.5154 5 6 1 8 61.32 5.88 1.5118 5 4 3 8 62.78 1.16 1.4802 5 1 4 8 63.27 1.81 1.4698 4 7 1 8 63.59 2.93 1.4632 7 3 2 8 63.59 3.37 1.4632 3 7 2 8 63.73 2.09 1.4602 1 2 5 8 65.49 2.64 1.4252 7 0 3 8 65.58 4.68 1.4235 6 6 0 4 65.80 3.66 1.4193 3 0 5 8 66.60 2.52 1.4042 7 5 0 4 67.53 2.97 1.3871 2 7 3 8 67.83 7.45 1.3817 2 3 5 8 68.69 8.85 1.3664 8 2 2 8 68.69 6.30 1.3664 2 8 2 8 69.62 1.33 1.3505 8 4 0 4 69.91 3.31 1.3455 6 2 4 8 70.61 2.87 1.3339 1 9 0 4 71.37 1.13 1.3216 9 0 1 8 71.52 3.94 1.3192 5 6 3 8 71.67 1.29 1.3168 5 7 2 8 73.76 2.88 1.2845 4 3 5 8 74.81 1.13 1.2691 1 7 4 8 75.17 1.64 1.2639 0 0 6 2 75.56 1.26 1.2583 9 1 2 8 79.52 2.86 1.2053 6 1 5 8 82.16 1.52 1.1732 5 9 0 4 83.17 1.88 1.1615 7 7 2 8 83.30 1.19 1.1600 6 3 5 8 83.30 1.01 1.1600 3 6 5 8 84.11 1.49 1.1509 8 6 2 8 85.18 1.27 1.1392 7 0 5 8 85.25 1.47 1.1384 6 6 4 8 86.92 1.37 1.1208 5 9 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.