Saltonseaite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from single crystal data of R120131 Kampf A R, Mills S J, Nestola F, Ciriotti M E, Kasatkin A V American Mineralogist 98 (2012) 231-235 Saltonseaite, K3NaMn2+Cl6, the Mn analogue of rinneite from the Salton Sea, California Locality: Salton Sea, California, USA _database_code_amcsd 0019751 CELL PARAMETERS: 12.0920 12.0920 13.9550 90.000 90.000 120.000 SPACE GROUP: R-3c ATOM X Y Z OCCUPANCY ISO(B) K 0.29052 0.33333 0.08333 1.000 2.120 Na 0.00000 0.00000 0.25000 1.000 2.276 Mn 0.00000 0.00000 0.00000 1.000 1.298 Cl 0.18155 0.02713 0.10888 1.000 1.835 X-RAY WAVELENGTH: 1.541838 BOUNDS ON TWO THETA: 5.0 90.0 LIMITS IMPOSED ON THE INDICES ARE: +/- 9 +/- 9 +/- 12 MAX. ABS. INTENSITY / VOLUME**2: 13.71571162 The INTENSITY cut off value is 1.00 2-THETA INTENSITY D-SPACING H K L 14.65 30.96 6.0460 1 1 0 15.26 49.74 5.8066 0 1 2 21.21 2.82 4.1880 2 0 2 23.36 5.86 3.8078 2 1 1 24.14 11.50 3.6868 1 1 3 25.52 25.09 3.4907 3 0 0 25.88 1.19 3.4427 1 2 2 26.94 9.59 3.3099 1 0 4 29.55 5.53 3.0230 2 2 0 30.80 18.76 2.9033 0 2 4 31.46 61.68 2.8435 1 3 1 33.42 29.86 2.6814 3 1 2 34.26 55.48 2.6172 2 1 4 35.41 100.00 2.5348 2 2 3 38.01 4.75 2.3676 3 2 1 38.71 10.15 2.3258 0 0 6 39.43 7.65 2.2852 4 1 0 39.51 7.86 2.2809 1 2 5 39.68 2.85 2.2716 2 3 2 40.41 8.43 2.2321 1 3 4 41.60 5.82 2.1708 1 1 6 43.20 2.83 2.0940 4 0 4 44.16 1.33 2.0510 1 4 3 44.98 4.65 2.0153 3 3 0 45.05 2.15 2.0124 3 1 5 45.86 28.07 1.9787 3 2 4 46.94 1.94 1.9355 3 0 6 47.77 2.55 1.9039 4 2 2 48.86 7.83 1.8640 5 1 1 49.44 9.58 1.8434 2 2 6 50.10 1.13 1.8208 2 3 5 50.24 3.19 1.8160 1 5 2 50.85 1.20 1.7957 0 5 4 51.31 2.72 1.7805 2 1 7 52.43 17.97 1.7453 6 0 0 53.24 6.09 1.7207 0 1 8 54.74 6.23 1.6769 5 2 0 54.93 3.99 1.6715 3 4 2 55.53 1.69 1.6549 2 0 8 55.94 9.65 1.6436 1 3 7 56.45 2.29 1.6300 1 4 6 57.76 1.07 1.5962 1 2 8 58.14 5.88 1.5866 1 6 1 58.51 1.79 1.5775 2 5 3 59.24 3.69 1.5597 1 5 5 59.37 2.11 1.5567 6 1 2 59.91 1.07 1.5438 4 3 4 60.33 3.94 1.5342 3 2 7 61.76 1.76 1.5019 1 1 9 63.61 4.79 1.4628 5 3 2 64.52 1.23 1.4444 6 2 1 64.86 2.16 1.4375 4 4 3 66.21 2.44 1.4115 2 3 8 66.58 1.64 1.4045 2 4 7 67.58 5.21 1.3861 6 1 5 67.74 2.55 1.3833 1 0 10 67.94 1.52 1.3797 2 2 9 68.21 10.50 1.3749 3 5 4 70.20 1.32 1.3407 6 2 4 70.22 4.20 1.3404 5 0 8 71.68 1.97 1.3167 4 5 2 73.86 1.25 1.2831 1 4 9 74.14 2.72 1.2790 1 5 8 74.93 1.59 1.2674 4 4 6 77.96 1.77 1.2256 0 8 4 79.30 2.02 1.2081 1 2 11 81.76 1.14 1.1779 6 1 8 83.62 2.47 1.1564 8 1 4 84.41 2.00 1.1476 6 3 6 85.25 1.29 1.1384 5 2 9 85.51 2.86 1.1356 5 3 8 86.93 1.20 1.1207 5 1 10 88.65 2.16 1.1033 3 0 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.