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T. Woike, V. Petrícek, M. Dusek, N. K. Hansen, P. Fertey, C. Lecomte, A. Arakcheeva, G. Chapuis, M. Imlau and R. Pankrath
The structure of a crystal of Sr0.61Ba0.39Nb2O6 has been solved and refined as an incommensurate structure in five-dimensional superspace. The structure is tetragonal, superspace group 
, unit-cell parameters a = 12.4566 (9), c = 7.8698 (6) Å, modulation vectors q1 = 0.3075 (6) (a* + b*), q2 = 0.3075 (6) (a* - b*). The data collection was performed on a KUMA-CCD diffractometer and allowed the integration of weak first-order satellite reflections. The structure was refined from 2569 reflections to a final value of R = 0.0479. The modulation affects mainly the positions of the O atoms, which are displaced by as much as 0.5 Å, and the site 4c that is occupied by Sr and Ba atoms. Only a simplified model, in which this atomic position is occupied by an effective atom Sr/Ba, could be refined from the data set. The modulation of displacement parameters has been used to account for the modulated distribution of Sr and Ba. The whole refinement uses only first-order modulation waves, but there are strong indications that for a complete solution the use of higher-order satellites and a more complicated model is necessary.
, unit-cell parameters a = 12.4566 (9), c = 7.8698 (6) Å, modulation vectors q1 = 0.3075 (6) (a* + b*), q2 = 0.3075 (6) (a* - b*). The data collection was performed on a KUMA-CCD diffractometer and allowed the integration of weak first-order satellite reflections. The structure was refined from 2569 reflections to a final value of R = 0.0479. The modulation affects mainly the positions of the O atoms, which are displaced by as much as 0.5 Å, and the site 4c that is occupied by Sr and Ba atoms. Only a simplified model, in which this atomic position is occupied by an effective atom Sr/Ba, could be refined from the data set. The modulation of displacement parameters has been used to account for the modulated distribution of Sr and Ba. The whole refinement uses only first-order modulation waves, but there are strong indications that for a complete solution the use of higher-order satellites and a more complicated model is necessary.Supporting information
 | Crystallographic Information File (CIF) https://doi.org/10.1107/S0108768102021341/sn0027sup1.cif |
 | Structure factor file (CIF format) https://doi.org/10.1107/S0108768102021341/sn0027Isup2.hkl |
Computing details top
Program(s) used to refine structure: (Jana2000; Petricek and Dusek, 2000); software used to prepare material for publication: (Jana2000; Petricek and Dusek, 2000).
(I) top
Crystal data top
| Ba0.39Nb2O6Sr0.61 | Z = 10 |
| Mr = 388.8 | F(000) = 1753 |
| Tetragonal, X4bm† | Dx = 5.286 (1) Mg m−3 Dm = 5.286 (3) Mg m−3 Dm measured by flotation method |
| q1 = 0.30750a* + 0.30750b*; q2 = 0.30750a* + -0.30750b* | Mo Kα radiation, λ = 0.71069 Å |
| a = 12.4566 (9) Å | µ = 14.31 mm−1 |
| c = 7.8698 (6) Å | Sphere |
| V = 1221.13 (16) Å3 | 0.13 mm mm (radius) |
| † Symmetry operations: (1) x1, x2, x3, x4, x5; (2) −x2, x1, x3, x5, −x4; (3) 1/2−x1, 1/2+x2, x3, −x5, −x4; (4) −x1, −x2, x3, −x4, −x5; (5) 1/2−x2, 1/2−x1, x3, −x4, x5; (6) x2, −x1, x3, −x5, x4; (7) 1/2+x1, 1/2−x2, x3, x5, x4; (8) 1/2+x2, 1/2+x1, x3, x4, −x5; (9) x1, x2, 1/2+x3, 1/2+x4, 1/2+x5; (10) −x2, x1, 1/2+x3, 1/2+x5, 1/2−x4; (11) 1/2−x1, 1/2+x2, 1/2+x3, 1/2−x5, 1/2−x4; (12) −x1, −x2, 1/2+x3, 1/2−x4, 1/2−x5; (13) 1/2−x2, 1/2−x1, 1/2+x3, 1/2−x4, 1/2+x5; (14) x2, −x1, 1/2+x3, 1/2−x5, 1/2+x4; (15) 1/2+x1, 1/2−x2, 1/2+x3, 1/2+x5, 1/2+x4; (16) 1/2+x2, 1/2+x1, 1/2+x3, 1/2+x4, 1/2−x5. |
Data collection top
| Absorption correction: analytical | Rint = 0.080 |
| Tmin = 0.058, Tmax = 0.088 | θmax = 32.0°, θmin = 6.1° |
| 27797 measured reflections | h = −18→18 |
| 5214 independent reflections | k = −16→18 |
| 2569 reflections with I > 3σ(I) | l = −11→11 |
Refinement top
| Refinement on F | Weighting scheme based on measured s.u.'s w = 1/(σ2(F) + 0.000025F2) |
| R[F2 > 2σ(F2)] = 0.048 | (Δ/σ)max = 0.041 |
| wR(F2) = 0.058 | Δρmax = 3.39 e Å−3 |
| S = 2.82 | Δρmin = −4.67 e Å−3 |
| 2569 reflections | Extinction correction: B-C type 1 Lorentzian isotropic (Becker & Coppens, 1974) |
| 130 parameters | Extinction coefficient: 0.289379 |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
| x | y | z | Uiso*/Ueq | Occ. (<1) | |
| Nb1 | 0 | 0.5 | 0 | 0.00841 (13) | |
| Nb2 | 0.07454 (3) | 0.21159 (3) | −0.00972 (13) | 0.00993 (11) | |
| Sr1 | 0 | 0 | 0.23574 (17) | 0.0066 (3) | 0.71 (4) |
| Sr2 | 0.1719 | 0.6719 | 0.2383 | 0.02622 (18) | 0.391 (16) |
| Ba2 | 0.17192 (3) | 0.67192 (3) | 0.23830 (16) | 0.02622 (18) | 0.505 (13) |
| O1 | 0.2176 (3) | 0.2824 (3) | −0.0200 (10) | 0.0116 (9)* | |
| O2 | 0.1394 (3) | 0.0695 (3) | −0.0294 (7) | 0.0107 (8)* | |
| O3 | −0.0060 (3) | 0.3441 (3) | −0.0261 (8) | 0.0105 (8)* | |
| O4 | 0.0768 (4) | 0.2037 (3) | 0.2291 (7) | 0.0127 (9)* | |
| O5 | 0 | 0.5 | 0.2334 (13) | 0.021 (2)* |
Atomic displacement parameters (Å2) top
| U11 | U22 | U33 | U12 | U13 | U23 | |
| Nb1 | 0.0085 (2) | 0.0085 (2) | 0.0083 (3) | −0.00089 (18) | 0 | 0 |
| Nb2 | 0.00988 (18) | 0.00868 (18) | 0.01122 (19) | 0.00128 (10) | −0.0002 (2) | −0.0003 (2) |
| Sr1 | 0.0066 (4) | 0.0066 (4) | 0.0067 (5) | 0 | 0 | 0 |
| Sr2 | 0.0316 (3) | 0.0316 (3) | 0.0154 (3) | −0.0190 (3) | −0.0002 (3) | −0.0002 (3) |
| Ba2 | 0.0316 (3) | 0.0316 (3) | 0.0154 (3) | −0.0190 (3) | −0.0002 (3) | −0.0002 (3) |
Geometric parameters (Å, º) top
| Average | Minimum | Maximum | |
| Nb1—O3 | 1.97 (2) | 1.88 (2) | 2.06 (2) |
| Nb1—O3i | 1.97 (2) | 1.88 (2) | 2.06 (2) |
| Nb1—O3ii | 1.97 (2) | 1.88 (2) | 2.06 (2) |
| Nb1—O3iii | 1.97 (2) | 1.88 (2) | 2.06 (2) |
| Nb1—O5 | 1.86 (3) | 1.70 (6) | 1.97 (6) |
| Nb1—O5iv | 2.13 (3) | 1.97 (6) | 2.23 (6) |
| Nb2—O1 | 2.00 (2) | 1.96 (2) | 2.02 (2) |
| Nb2—O2 | 1.96 (2) | 1.91 (2) | 2.009 (18) |
| Nb2—O2v | 2.03 (2) | 1.97 (2) | 2.072 (18) |
| Nb2—O3 | 1.95 (2) | 1.90 (2) | 2.00 (2) |
| Nb2—O4 | 1.91 (3) | 1.79 (3) | 1.98 (3) |
| Nb2—O4iv | 2.09 (3) | 1.95 (3) | 2.18 (3) |
| Sr1—O2 | 2.855 (17) | 2.456 (17) | 3.248 (16) |
| Sr1—O2vi | 2.681 (18) | 2.477 (19) | 2.908 (17) |
| Sr1—O2v | 2.855 (17) | 2.456 (17) | 3.248 (16) |
| Sr1—O2vii | 2.681 (18) | 2.477 (19) | 2.908 (17) |
| Sr1—O2viii | 2.855 (17) | 2.456 (17) | 3.248 (16) |
| Sr1—O2ix | 2.681 (18) | 2.477 (19) | 2.908 (17) |
| Sr1—O2x | 2.855 (17) | 2.456 (17) | 3.248 (16) |
| Sr1—O2xi | 2.681 (18) | 2.477 (19) | 2.908 (17) |
| Sr1—O4 | 2.728 (12) | 2.580 (13) | 2.869 (12) |
| Sr1—O4v | 2.728 (12) | 2.580 (13) | 2.869 (12) |
| Sr1—O4viii | 2.728 (12) | 2.580 (13) | 2.869 (12) |
| Sr1—O4x | 2.728 (12) | 2.580 (13) | 2.869 (12) |
| Sr2—O1xii | 2.816 (18) | 2.65 (2) | 2.992 (19) |
| Sr2—O1xiii | 2.722 (19) | 2.57 (2) | 2.894 (19) |
| Sr2—O2xiii | 3.244 (19) | 2.962 (18) | 3.528 (17) |
| Sr2—O2xiv | 3.249 (19) | 2.963 (18) | 3.528 (17) |
| Sr2—O3i | 2.943 (18) | 2.618 (19) | 3.293 (17) |
| Sr2—O3xv | 2.793 (19) | 2.577 (19) | 3.024 (18) |
| Sr2—O3ii | 2.934 (18) | 2.618 (19) | 3.294 (17) |
| Sr2—O3xvi | 2.786 (19) | 2.576 (19) | 3.024 (18) |
| Sr2—O4xii | 3.169 (14) | 2.532 (14) | 3.785 (14) |
| Sr2—O4i | 3.455 (14) | 2.803 (14) | 4.126 (14) |
| Sr2—O4ii | 3.487 (14) | 2.803 (14) | 4.126 (14) |
| Sr2—O4xvii | 3.149 (14) | 2.532 (14) | 3.785 (14) |
| Sr2—O5 | 3.045 (10) | 2.693 (9) | 3.366 (9) |
| O3—Nb1—O3i | 167.5 (6) | 166.1 (6) | 169.3 (6) |
| O3—Nb1—O3ii | 93.6 (9) | 86.4 (9) | 100.6 (9) |
| O3—Nb1—O3iii | 85.3 (9) | 76.5 (8) | 92.7 (9) |
| O3—Nb1—O5 | 96.2 (7) | 94.7 (7) | 97.9 (7) |
| O3—Nb1—O5iv | 83.8 (6) | 82.1 (6) | 85.4 (6) |
| O3i—Nb1—O3 | 167.5 (6) | 166.1 (6) | 169.3 (6) |
| O3i—Nb1—O3ii | 85.1 (9) | 76.5 (8) | 92.7 (9) |
| O3i—Nb1—O3iii | 93.5 (9) | 86.4 (9) | 100.6 (9) |
| O3i—Nb1—O5 | 96.1 (7) | 94.8 (7) | 97.9 (7) |
| O3i—Nb1—O5iv | 83.8 (6) | 82.1 (6) | 85.4 (6) |
| O3ii—Nb1—O3 | 93.6 (9) | 86.4 (9) | 100.6 (9) |
| O3ii—Nb1—O3i | 85.1 (9) | 76.5 (8) | 92.7 (9) |
| O3ii—Nb1—O3iii | 167.5 (6) | 166.1 (6) | 169.3 (6) |
| O3ii—Nb1—O5 | 96.1 (7) | 94.8 (7) | 97.9 (7) |
| O3ii—Nb1—O5iv | 83.9 (6) | 82.1 (6) | 85.5 (6) |
| O3iii—Nb1—O3 | 85.3 (9) | 76.5 (8) | 92.7 (9) |
| O3iii—Nb1—O3i | 93.5 (9) | 86.4 (9) | 100.6 (9) |
| O3iii—Nb1—O3ii | 167.5 (6) | 166.1 (6) | 169.3 (6) |
| O3iii—Nb1—O5 | 96.2 (7) | 94.7 (7) | 97.9 (7) |
| O3iii—Nb1—O5iv | 83.8 (6) | 82.1 (6) | 85.4 (6) |
| O5—Nb1—O5iv | 179.7 (6) | 179.5 (6) | 180 |
| O5iv—Nb1—O5 | 179.7 (6) | 179.5 (6) | 180 |
| O1—Nb2—O2 | 91.1 (9) | 83.6 (9) | 99.4 (9) |
| O1—Nb2—O2v | 172.9 (6) | 168.9 (6) | 175.9 (6) |
| O1—Nb2—O3 | 94.9 (9) | 90.2 (9) | 98.8 (9) |
| O1—Nb2—O4 | 93.0 (6) | 88.6 (6) | 97.3 (6) |
| O1—Nb2—O4iv | 88.0 (6) | 84.0 (5) | 92.2 (6) |
| O2—Nb2—O2v | 88.4 (8) | 78.3 (9) | 96.6 (8) |
| O2—Nb2—O3 | 169.0 (7) | 163.7 (8) | 172.7 (6) |
| O2—Nb2—O4 | 91.4 (6) | 90.1 (6) | 93.0 (5) |
| O2—Nb2—O4iv | 82.8 (5) | 81.2 (5) | 84.3 (5) |
| O2v—Nb2—O2 | 88.4 (8) | 78.3 (8) | 96.6 (8) |
| O2v—Nb2—O3 | 84.7 (8) | 80.0 (8) | 88.0 (8) |
| O2v—Nb2—O4 | 93.6 (6) | 92.8 (6) | 94.1 (6) |
| O2v—Nb2—O4iv | 85.3 (5) | 84.7 (6) | 86.3 (6) |
| O3—Nb2—O4 | 96.8 (6) | 93.4 (6) | 99.1 (6) |
| O3—Nb2—O4iv | 88.9 (6) | 86.4 (5) | 92.4 (6) |
| O4—Nb2—O4iv | 174.1 (5) | 173.8 (5) | 174.5 (5) |
| O4iv—Nb2—O4 | 174.1 (5) | 173.8 (5) | 174.5 (5) |
| O2—Sr1—O2vi | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2—Sr1—O2v | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2—Sr1—O2vii | 120.0 (6) | 116.3 (5) | 122.6 (5) |
| O2—Sr1—O2viii | 86.2 (5) | 79.4 (5) | 93.8 (6) |
| O2—Sr1—O2ix | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2—Sr1—O2x | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2—Sr1—O2xi | 120.1 (6) | 115.1 (6) | 124.6 (6) |
| O2—Sr1—O4 | 59.3 (6) | 55.4 (6) | 64.1 (6) |
| O2—Sr1—O4v | 116.5 (6) | 110.6 (6) | 121.7 (6) |
| O2—Sr1—O4viii | 119.0 (6) | 114.1 (7) | 123.1 (6) |
| O2—Sr1—O4x | 61.8 (6) | 57.3 (6) | 67.6 (6) |
| O2vi—Sr1—O2 | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2vi—Sr1—O2v | 120.1 (6) | 115.1 (5) | 124.6 (6) |
| O2vi—Sr1—O2vii | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2vi—Sr1—O2viii | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2vi—Sr1—O2ix | 92.8 (5) | 80.3 (5) | 107.0 (6) |
| O2vi—Sr1—O2x | 120.0 (6) | 116.3 (5) | 122.6 (6) |
| O2vi—Sr1—O2xi | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2vi—Sr1—O4 | 59.3 (6) | 55.7 (6) | 63.4 (6) |
| O2vi—Sr1—O4v | 120.0 (7) | 114.4 (6) | 125.6 (7) |
| O2vi—Sr1—O4viii | 122.4 (6) | 115.8 (7) | 130.3 (7) |
| O2vi—Sr1—O4x | 61.8 (6) | 59.5 (6) | 66.0 (6) |
| O2v—Sr1—O2 | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2v—Sr1—O2vi | 120.1 (6) | 115.1 (6) | 124.6 (6) |
| O2v—Sr1—O2vii | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2v—Sr1—O2viii | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2v—Sr1—O2ix | 120.0 (6) | 116.3 (5) | 122.6 (5) |
| O2v—Sr1—O2x | 86.2 (5) | 79.4 (5) | 93.8 (6) |
| O2v—Sr1—O2xi | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2v—Sr1—O4 | 61.8 (6) | 57.3 (6) | 67.6 (6) |
| O2v—Sr1—O4v | 59.3 (6) | 55.4 (6) | 64.1 (6) |
| O2v—Sr1—O4viii | 116.5 (6) | 110.6 (6) | 121.7 (6) |
| O2v—Sr1—O4x | 119.0 (6) | 114.1 (7) | 123.1 (6) |
| O2vii—Sr1—O2 | 120.0 (6) | 116.3 (5) | 122.6 (6) |
| O2vii—Sr1—O2vi | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2vii—Sr1—O2v | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2vii—Sr1—O2viii | 120.1 (6) | 115.1 (5) | 124.6 (6) |
| O2vii—Sr1—O2ix | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2vii—Sr1—O2x | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2vii—Sr1—O2xi | 92.8 (5) | 80.3 (5) | 107.0 (6) |
| O2vii—Sr1—O4 | 61.8 (6) | 59.5 (6) | 66.0 (6) |
| O2vii—Sr1—O4v | 59.3 (6) | 55.7 (6) | 63.4 (6) |
| O2vii—Sr1—O4viii | 120.0 (7) | 114.4 (6) | 125.6 (7) |
| O2vii—Sr1—O4x | 122.4 (6) | 115.8 (7) | 130.3 (7) |
| O2viii—Sr1—O2 | 86.2 (5) | 79.4 (5) | 93.8 (6) |
| O2viii—Sr1—O2vi | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2viii—Sr1—O2v | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2viii—Sr1—O2vii | 120.1 (6) | 115.1 (6) | 124.6 (6) |
| O2viii—Sr1—O2ix | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2viii—Sr1—O2x | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2viii—Sr1—O2xi | 120.0 (6) | 116.3 (5) | 122.6 (5) |
| O2viii—Sr1—O4 | 119.0 (6) | 114.1 (7) | 123.1 (6) |
| O2viii—Sr1—O4v | 61.8 (6) | 57.3 (6) | 67.6 (6) |
| O2viii—Sr1—O4viii | 59.3 (6) | 55.4 (6) | 64.1 (6) |
| O2viii—Sr1—O4x | 116.5 (6) | 110.6 (6) | 121.7 (6) |
| O2ix—Sr1—O2 | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2ix—Sr1—O2vi | 92.8 (5) | 80.3 (5) | 107.0 (6) |
| O2ix—Sr1—O2v | 120.0 (6) | 116.3 (5) | 122.6 (6) |
| O2ix—Sr1—O2vii | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2ix—Sr1—O2viii | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2ix—Sr1—O2x | 120.1 (6) | 115.1 (5) | 124.6 (6) |
| O2ix—Sr1—O2xi | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2ix—Sr1—O4 | 122.4 (6) | 115.8 (7) | 130.3 (7) |
| O2ix—Sr1—O4v | 61.8 (6) | 59.5 (6) | 66.0 (6) |
| O2ix—Sr1—O4viii | 59.3 (6) | 55.7 (6) | 63.4 (6) |
| O2ix—Sr1—O4x | 120.0 (7) | 114.4 (6) | 125.6 (7) |
| O2x—Sr1—O2 | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2x—Sr1—O2vi | 120.0 (6) | 116.3 (5) | 122.6 (5) |
| O2x—Sr1—O2v | 86.2 (5) | 79.4 (5) | 93.8 (6) |
| O2x—Sr1—O2vii | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2x—Sr1—O2viii | 57.9 (6) | 54.7 (6) | 60.2 (5) |
| O2x—Sr1—O2ix | 120.1 (6) | 115.1 (6) | 124.6 (6) |
| O2x—Sr1—O2xi | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2x—Sr1—O4 | 116.5 (6) | 110.6 (6) | 121.7 (6) |
| O2x—Sr1—O4v | 119.0 (6) | 114.1 (7) | 123.1 (6) |
| O2x—Sr1—O4viii | 61.8 (6) | 57.3 (6) | 67.6 (6) |
| O2x—Sr1—O4x | 59.3 (6) | 55.4 (6) | 64.1 (6) |
| O2xi—Sr1—O2 | 120.1 (6) | 115.1 (5) | 124.6 (6) |
| O2xi—Sr1—O2vi | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2xi—Sr1—O2v | 175.9 (5) | 169.3 (5) | 179.8 (6) |
| O2xi—Sr1—O2vii | 92.8 (5) | 80.3 (5) | 107.0 (6) |
| O2xi—Sr1—O2viii | 120.0 (6) | 116.3 (5) | 122.6 (6) |
| O2xi—Sr1—O2ix | 61.9 (6) | 56.6 (6) | 66.3 (6) |
| O2xi—Sr1—O2x | 90.5 (5) | 78.2 (5) | 101.2 (5) |
| O2xi—Sr1—O4 | 120.0 (7) | 114.4 (6) | 125.6 (7) |
| O2xi—Sr1—O4v | 122.4 (6) | 115.8 (7) | 130.3 (7) |
| O2xi—Sr1—O4viii | 61.8 (6) | 59.5 (6) | 66.0 (6) |
| O2xi—Sr1—O4x | 59.3 (6) | 55.7 (6) | 63.4 (6) |
| O4—Sr1—O4v | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4—Sr1—O4viii | 174.7 (6) | 171.5 (5) | 179.2 (5) |
| O4—Sr1—O4x | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4v—Sr1—O4 | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4v—Sr1—O4viii | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4v—Sr1—O4x | 174.7 (6) | 171.5 (5) | 179.2 (5) |
| O4viii—Sr1—O4 | 174.7 (6) | 171.5 (5) | 179.2 (5) |
| O4viii—Sr1—O4v | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4viii—Sr1—O4x | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4x—Sr1—O4 | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O4x—Sr1—O4v | 174.7 (6) | 171.5 (5) | 179.2 (5) |
| O4x—Sr1—O4viii | 90.0 (4) | 66.9 (4) | 112.5 (4) |
| O1xii—Sr2—O1xiii | 90.4 (5) | 80.8 (6) | 99.3 (5) |
| O1xii—Sr2—O2xii | 53.1 (5) | 49.4 (5) | 56.5 (6) |
| O1xii—Sr2—O2xiii | 103.9 (5) | 96.3 (6) | 111.5 (5) |
| O1xii—Sr2—O2xvii | 53.0 (5) | 49.4 (5) | 56.5 (5) |
| O1xii—Sr2—O2xiv | 104.2 (5) | 96.3 (6) | 111.5 (5) |
| O1xii—Sr2—O3i | 82.5 (5) | 75.8 (5) | 89.3 (6) |
| O1xii—Sr2—O3xv | 151.3 (6) | 144.6 (6) | 157.1 (6) |
| O1xii—Sr2—O3ii | 82.6 (5) | 75.8 (5) | 89.3 (6) |
| O1xii—Sr2—O3xvi | 150.9 (6) | 144.6 (6) | 157.1 (6) |
| O1xii—Sr2—O4xii | 55.7 (6) | 51.3 (6) | 60.2 (7) |
| O1xii—Sr2—O4i | 101.8 (6) | 98.7 (6) | 105.2 (6) |
| O1xii—Sr2—O4ii | 101.6 (6) | 98.7 (6) | 105.2 (6) |
| O1xii—Sr2—O4xvii | 55.8 (6) | 51.3 (6) | 60.2 (7) |
| O1xii—Sr2—O5 | 133.2 (4) | 128.1 (5) | 138.2 (5) |
| O1xiii—Sr2—O1xii | 90.4 (5) | 80.8 (6) | 99.3 (5) |
| O1xiii—Sr2—O2xii | 105.5 (5) | 96.6 (5) | 114.6 (5) |
| O1xiii—Sr2—O2xiii | 55.9 (6) | 53.2 (5) | 58.2 (6) |
| O1xiii—Sr2—O2xvii | 105.9 (5) | 96.6 (5) | 114.6 (5) |
| O1xiii—Sr2—O2xiv | 55.8 (6) | 53.2 (5) | 58.2 (6) |
| O1xiii—Sr2—O3i | 152.0 (6) | 144.9 (6) | 158.2 (6) |
| O1xiii—Sr2—O3xv | 87.1 (6) | 80.2 (5) | 94.2 (6) |
| O1xiii—Sr2—O3ii | 151.6 (6) | 144.9 (6) | 158.2 (6) |
| O1xiii—Sr2—O3xvi | 87.2 (6) | 80.2 (5) | 94.2 (6) |
| O1xiii—Sr2—O4xii | 56.7 (6) | 51.0 (6) | 62.8 (7) |
| O1xiii—Sr2—O4i | 104.0 (6) | 99.6 (6) | 108.7 (6) |
| O1xiii—Sr2—O4ii | 103.8 (6) | 99.6 (6) | 108.7 (6) |
| O1xiii—Sr2—O4xvii | 56.9 (6) | 51.0 (6) | 62.8 (7) |
| O1xiii—Sr2—O5 | 136.4 (5) | 131.4 (5) | 141.8 (5) |
| O2xiii—Sr2—O2xii | 72.2 (4) | 58.8 (4) | 85.3 (4) |
| O2xiii—Sr2—O2xvii | 152.6 (5) | 149.9 (5) | 155.9 (5) |
| O2xiii—Sr2—O2xiv | 104.8 (4) | 99.8 (4) | 109.5 (4) |
| O2xiii—Sr2—O3i | 151.4 (5) | 145.5 (5) | 157.0 (5) |
| O2xiii—Sr2—O3xv | 98.0 (5) | 92.7 (5) | 104.0 (5) |
| O2xiii—Sr2—O3ii | 99.3 (5) | 89.3 (5) | 109.1 (4) |
| O2xiii—Sr2—O3xvi | 52.1 (5) | 49.1 (5) | 54.8 (5) |
| O2xiii—Sr2—O4xii | 48.9 (5) | 45.5 (5) | 52.8 (6) |
| O2xiii—Sr2—O4i | 147.0 (6) | 140.8 (5) | 153.6 (6) |
| O2xiii—Sr2—O4ii | 48.2 (5) | 44.0 (5) | 52.9 (5) |
| O2xiii—Sr2—O4xvii | 108.5 (5) | 103.9 (5) | 113.2 (5) |
| O2xiii—Sr2—O5 | 104.1 (5) | 99.6 (4) | 108.7 (5) |
| O2xiv—Sr2—O2xii | 152.6 (5) | 149.9 (5) | 155.9 (5) |
| O2xiv—Sr2—O2xiii | 104.8 (4) | 99.8 (4) | 109.5 (4) |
| O2xiv—Sr2—O2xvii | 72.8 (4) | 58.8 (4) | 85.3 (4) |
| O2xiv—Sr2—O3i | 99.9 (5) | 89.3 (5) | 109.0 (4) |
| O2xiv—Sr2—O3xv | 52.0 (5) | 49.1 (5) | 54.8 (5) |
| O2xiv—Sr2—O3ii | 151.8 (5) | 145.4 (5) | 157.0 (5) |
| O2xiv—Sr2—O3xvi | 98.1 (5) | 92.7 (5) | 104.0 (5) |
| O2xiv—Sr2—O4xii | 108.2 (5) | 103.9 (5) | 113.2 (5) |
| O2xiv—Sr2—O4i | 48.5 (5) | 44.0 (5) | 52.9 (5) |
| O2xiv—Sr2—O4ii | 146.7 (6) | 140.8 (5) | 153.6 (6) |
| O2xiv—Sr2—O4xvii | 49.0 (5) | 45.5 (5) | 52.8 (6) |
| O2xiv—Sr2—O5 | 103.9 (5) | 99.6 (4) | 108.7 (5) |
| O3i—Sr2—O3xv | 86.6 (5) | 70.4 (5) | 100.7 (5) |
| O3i—Sr2—O3ii | 53.9 (5) | 49.0 (5) | 58.2 (6) |
| O3i—Sr2—O3xvi | 111.2 (5) | 105.6 (5) | 117.5 (5) |
| O3i—Sr2—O4xii | 133.7 (6) | 129.6 (6) | 138.8 (6) |
| O3i—Sr2—O4i | 52.1 (6) | 45.6 (5) | 57.5 (6) |
| O3i—Sr2—O4ii | 103.9 (5) | 100.4 (5) | 108.2 (6) |
| O3i—Sr2—O4xvii | 97.8 (6) | 96.2 (6) | 99.5 (5) |
| O3i—Sr2—O5 | 56.5 (5) | 54.8 (5) | 58.6 (5) |
| O3xv—Sr2—O3i | 86.6 (5) | 70.4 (5) | 100.7 (5) |
| O3xv—Sr2—O3ii | 111.3 (5) | 105.6 (5) | 117.5 (5) |
| O3xv—Sr2—O3xvi | 56.9 (6) | 53.8 (6) | 59.5 (6) |
| O3xv—Sr2—O4xii | 139.6 (6) | 129.4 (6) | 150.9 (6) |
| O3xv—Sr2—O4i | 52.0 (6) | 45.1 (5) | 58.0 (6) |
| O3xv—Sr2—O4ii | 106.3 (5) | 102.0 (5) | 111.1 (6) |
| O3xv—Sr2—O4xvii | 100.4 (6) | 95.7 (6) | 105.0 (6) |
| O3xv—Sr2—O5 | 55.5 (5) | 50.6 (4) | 60.8 (5) |
| O3ii—Sr2—O3i | 53.9 (5) | 49.0 (5) | 58.2 (6) |
| O3ii—Sr2—O3xv | 111.3 (5) | 105.6 (5) | 117.5 (5) |
| O3ii—Sr2—O3xvi | 85.9 (5) | 70.3 (5) | 100.7 (5) |
| O3ii—Sr2—O4xii | 97.9 (6) | 96.2 (6) | 99.5 (5) |
| O3ii—Sr2—O4i | 104.1 (5) | 100.3 (5) | 108.2 (6) |
| O3ii—Sr2—O4ii | 51.9 (6) | 45.6 (5) | 57.5 (6) |
| O3ii—Sr2—O4xvii | 133.9 (6) | 129.6 (6) | 138.8 (6) |
| O3ii—Sr2—O5 | 56.5 (5) | 54.8 (5) | 58.6 (5) |
| O3xvi—Sr2—O3i | 111.2 (5) | 105.6 (5) | 117.5 (5) |
| O3xvi—Sr2—O3xv | 56.9 (6) | 53.8 (6) | 59.5 (6) |
| O3xvi—Sr2—O3ii | 85.9 (5) | 70.3 (5) | 100.7 (5) |
| O3xvi—Sr2—O4xii | 100.3 (6) | 95.7 (6) | 105.0 (6) |
| O3xvi—Sr2—O4i | 106.5 (6) | 102.0 (5) | 111.1 (6) |
| O3xvi—Sr2—O4ii | 51.6 (6) | 45.1 (5) | 58.0 (6) |
| O3xvi—Sr2—O4xvii | 140.0 (6) | 129.4 (6) | 150.9 (6) |
| O3xvi—Sr2—O5 | 55.5 (5) | 50.6 (4) | 60.8 (5) |
| O4xii—Sr2—O4i | 146.2 (3) | 143.8 (3) | 148.6 (3) |
| O4xii—Sr2—O4ii | 70.4 (3) | 65.6 (3) | 74.8 (3) |
| O4xii—Sr2—O4xvii | 75.9 (3) | 70.7 (3) | 80.9 (3) |
| O4xii—Sr2—O5 | 142.2 (4) | 135.4 (4) | 147.9 (4) |
| O4i—Sr2—O4xii | 146.2 (3) | 143.8 (3) | 148.6 (3) |
| O4i—Sr2—O4ii | 143.2 (3) | 139.0 (3) | 147.0 (3) |
| O4i—Sr2—O4xvii | 70.4 (3) | 65.6 (3) | 74.8 (3) |
| O4i—Sr2—O5 | 71.5 (4) | 65.5 (4) | 76.7 (4) |
| O4ii—Sr2—O4xii | 70.4 (3) | 65.6 (3) | 74.8 (3) |
| O4ii—Sr2—O4i | 143.2 (3) | 139.0 (3) | 147.0 (3) |
| O4ii—Sr2—O4xvii | 146.2 (3) | 143.8 (3) | 148.6 (3) |
| O4ii—Sr2—O5 | 71.8 (4) | 65.5 (4) | 76.7 (4) |
| O4xvii—Sr2—O4xii | 75.9 (3) | 70.7 (3) | 80.9 (3) |
| O4xvii—Sr2—O4i | 70.4 (3) | 65.6 (3) | 74.8 (3) |
| O4xvii—Sr2—O4ii | 146.2 (3) | 143.8 (3) | 148.6 (3) |
| O4xvii—Sr2—O5 | 141.8 (4) | 135.4 (4) | 147.9 (4) |
| Symmetry codes: (i) −x1, −x2+1, x3, −x4, −x5; (ii) −x2+1/2, −x1+1/2, x3, −x4, x5; (iii) x2−1/2, x1+1/2, x3, x4, −x5; (iv) x1, x2, x3−1/2, x1/2, x1/2; (v) −x2, x1, x3, x5, −x4; (vi) x1, x2, x3+1/2, x1/2, x1/2; (vii) −x2, x1, x3+1/2, x1/2, −x1/2; (viii) −x1, −x2, x3, −x4, −x5; (ix) −x1, −x2, x3+1/2, −x1/2, −x1/2; (x) x2, −x1, x3, −x5, x4; (xi) x2, −x1, x3+1/2, −x1/2, x1/2; (xii) −x1+1/2, x2+1/2, x3, −x5, −x4; (xiii) −x1+1/2, x2+1/2, x3+1/2, −x1/2, −x1/2; (xiv) x2, −x1+1, x3+1/2, −x1/2, x1/2; (xv) −x1, −x2+1, x3+1/2, −x1/2, −x1/2; (xvi) −x2+1/2, −x1+1/2, x3+1/2, −x1/2, x1/2; (xvii) x2, −x1+1, x3, −x5, x4. |
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