Mg44.29Ru7

Li, J.; Fan, C.; Wen, B.; Zhang, L.

doi:10.1107/S2414314625007291

inorganic compounds

IUCrDATA

ISSN: 2414-3146

Volume 10| Part 8| August 2025| x250729

https://doi.org/10.1107/S2414314625007291

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Mg_44.29Ru₇

Junhui Li,^a Changzeng Fan,^a,^b ^* Bin Wen ^a and Lifeng Zhang ^a,^c

^aState Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, People's Republic of China, ^bHebei Key Lab for Optimizing Metal Product Technology and Performance, Yanshan University, Qinhuangdao 066004, People's Republic of China, and ^cSchool of Mechanical and Materials Engineering, North China University of Technology, Beijing 100144, People's Republic of China
^*Correspondence e-mail: [email protected]

Edited by M. Weil, Vienna University of Technology, Austria (Received 1 July 2025; accepted 14 August 2025; online 19 August 2025)

A cubic phase with composition Mg_44.29Ru₇ (tetratetracontamagnesium heptaruthenium) was obtained during high-pressure sintering of a mixture with an initial chemical composition of MgRuB. Mg_44.29Ru₇ has space-group symmetry F43m and adopts the Mg_{29 – x}Pt_4 + y type of structure, which is categorized as one of the two structural types identified in complex A₆B compounds.

Keywords: crystal structure; high-pressure synthesis; intermetallics; Mg–Ru₇ phase.

CCDC reference: 2480571

Structure description

There are two structural types in complex compounds with idealized formula A₆B crystallizing in the cubic space group F $[\overline{4}]$ 3m. For example, the Mg₄₄Rh₇ phase discovered by Westin (1971 ) belongs to the first structure type with lattice parameter a = 20.148 Å. Westin & Edshammar (1972 ) reported on a related magnesium-rich compound in the Mg/Ir system, Mg₄₄Ir₇, which is isotypic with Mg₄₄Rh₇. Based on Westin's work (Westin, 1972 ), Andersson (1978 ) pointed out that Mg/Ru phases near the composition Mg₄₄Rh₇ have a large homogeneity range so that ‘slightly different phases appear upon heat treatment at relatively low temperatures of Mg₄₄Ru₇^'. Such a different cubic phase with composition of Mg_44.29Ru₇ was obtained in the present study during high-pressure sintering of a mixture with an initial chemical composition of MgRuB. The lattice parameter a is similar to the aforementioned Mg₄₄Rh₇ phases. The refined composition of the Mg_44.29Ru₇ phase aligns closely with the elemental ratios determined by energy-dispersive X-ray spectroscopy (EDX) analysis (see Table S1 of the supporting information).

The present Mg_44.29Ru₇ phase (Fig. 1) belongs to the second structure type of complex A₆B compounds, just like the two phases in the Mg/Pd and Mg/Pt systems. Samson (1972 ) worked out that the basic building blocks of the Mg_340.04Pd_55.84 phase consist of eight icosahedra, four tri-capped trigonal prisms and 48 pentagonal prisms. Four such building blocks share a Laves–Friauf polyhedron, the centre of which is occupied in this case by the Mg11 atomic position (multiplicity 4, Wyckoff letter d), but is empty in Mg₄₄Rh₇ (first type). Agnarelli et al. (2022 ) performed chemical bonding and structure analyses of Mg_{29 – x}Pt_4 + y phases, revealing that the same central position is partially occupied by Mg8 atoms (multiplicity 4, Wyckoff letter a), and the nearest Mg position is split into Mg11 (when Mg8 is present) and Mg12 (when Mg8 is unoccupied). In the case of Mg11, this leads to a rather unusual partial occupancy by Pt. The final refinement resulted in occupancies of 58% Mg + 5% Pt for the Mg11 site and 15% Mg for the Mg12 site. During the refinement of the crystal structure of Mg_44.29Ru₇, it was confirmed that it exhibits a similar atomic environment at the same central position as the Mg_{29 – x}Pt_4 + y phases. The central position is characterized by partial occupancy by Mg1 ( $[\overline{4}]$ 3m symmetry, multiplicity 4, Wyckoff letter b), and is further subdivided into Mg11 and Mg13 at the nearest Mg position. The final refinement of Mg_44.29Ru₇ resulted in an Mg occupancy of 67 (2)% for Mg11 and 33 (2)% for Mg13. Another Mg/Ru phase related to Mg_44.29Ru₇ is the Ru-richer phase Mg_43.83Ru_7.17 (Westin & Edshammar, 1973 ). The main differences between the two phases are: (1) the Ru2 and Ru4 sites are co-occupied by both Ru and Mg in Mg_43.83Ru_7.17 while both positions are fully occupied in Mg_44.29Ru₇; (2) there is an additional partially occupied Mg1 site in Mg_44.29Ru₇ with $[\overline{4}]$ 3m symmetry; (3) the Mg11 site in Mg_43.83Ru_7.17 is split into two separated positions Mg11 and Mg13 in the present model.

Figure 1
The crystal structure of Mg_44.29Ru₇ (showing one unit cell projected along [111]), with displacement ellipsoids drawn at the 99% probability level. The circles represent partially split Mg11 and Mg13 sites.

The environments of the Ru1, Ru2 and Ru3 and Mg11 sites are shown in Figs. 2–5 , respectively. The Ru1 atom is located at a site with symmetry 2.mm (multiplicity 24, Wyckoff letter g) and is surrounded by twelve Mg atoms, with the shortest Ru—Mg separation of 2.707 (5) Å for Ru1—Mg4. The Ru2, Ru3 and Mg11 atoms occupy a site with symmetry .3m (16 e). The Ru2 and Ru3 sites are surrounded by twelve Mg atoms while the Mg11 site is surrounded by thirteen Mg atoms. The shortest Ru—Mg separations are Ru2—Mg3 = 2.778 (4) Å, Ru3—Mg7 = 2.8540 (19) Å and Mg11—Mg5 = 2.993 (11) Å.

Figure 2
(a) The icosahedron formed around Ru1 at the 24 g site; (b) the environment of Ru1 with displacement ellipsoids drawn the 99% probability level. [Symmetry codes: (v) −x + $[{1\over 2}]$ , −y + $[{1\over 2}]$ , z; (xii) −x + 1, −y + 1, z; (xiii) x − $[{1\over 2}]$ , y − $[{1\over 2}]$ , z; (xiv) −x + 1, y − $[{1\over 2}]$ , −z + $[{3\over 2}]$ ; (xv) x − $[{1\over 2}]$ , −y + 1, −z + $[{3\over 2}]$ ; (xvi) x, −y + $[{1\over 2}]$ , −z + $[{3\over 2}]$ ; (xvii) −x + $[{1\over 2}]$ , y, −z + $[{3\over 2}]$ ; (xviii) −y + $[{1\over 2}]$ , −z + 1, x + $[{1\over 2}]$ ; (xix) −z + 1, −x + $[{1\over 2}]$ , y + $[{1\over 2}]$ ; (xx) y, z − $[{1\over 2}]$ , x + $[{1\over 2}]$ ; (xxi) z − $[{1\over 2}]$ , x, y + $[{1\over 2}]$ .]

Figure 3
(a) The icosahedron formed around Ru2 at the 16 e site; (b) the environment of Ru2 with displacement ellipsoids drawn at the 99% probability level. [Symmetry codes:(i) y, z, x; (ii) z, x, y; (vi) y, z − 1, x; (vii) z − 1, x, y; (viii) x, y, z − 1; (ix) x − 1, −y + 1, −z + 1; (x) −x + 1, y − 1, −z + 1; (xi) −x + 1, −y + 1, z − 1.]

Figure 4
(a) The icosahedron formed around Ru3 at the 16 e site; (b) the environment of the Ru3 atom with displacement ellipsoids given at the 99% probability level. [Symmetry codes:(i) y, z, x; (ii) z, x, y; (iii) −y + $[{1\over 2}]$ , z, −x + $[{1\over 2}]$ ; (iv) z, −x + $[{1\over 2}]$ , −y + $[{1\over 2}]$ ; (v) −x + $[{1\over 2}]$ , −y + $[{1\over 2}]$ , z.]

Figure 5
(a) The 22-faced polyhedron formed around Mg11 at the 16 e site; (b) the environment of Mg1 with displacement ellipsoids drawn at the 99% probability level. [Symmetry codes: (xviii) −y + $[{1\over 2}]$ , −z + 1, x + $[{1\over 2}]$ ; (xix) −z + 1, −x + $[{1\over 2}]$ , y + $[{1\over 2}]$ ; (xxiv) −z + 1, x + $[{1\over 2}]$ , −y + $[{1\over 2}]$ ; (xxv) y + $[{1\over 2}]$ , z, x + $[{1\over 2}]$ ; (xxvi) z, x + $[{1\over 2}]$ , y + $[{1\over 2}]$ ; (xxvii) x + $[{1\over 2}]$ , y + $[{1\over 2}]$ , z; (xxx) x + $[{1\over 2}]$ , −y + $[{1\over 2}]$ , −z + 1.]

Synthesis and crystallization

High-purity magnesium (indicated purity of 99.9%; 0.1785 g), ruthenium (indicated purity of 99.9%; 0.7421 g) and boron (indicating purity of 99.9%; 0.0793 g) with a stoichiometric ratio of 1:1:1 were evenly mixed and finely ground in agate mortar for 40 min. The mixed powder was then placed in a cemented carbide grinding mold with a diameter of 5 mm and pressed into a block at about 4 MPa for three min. Cylindrical blocks without deformation and cracks were obtained. Details of high-pressure sintering experiments using a six-anvil high-temperature and high-pressure equipment are described elsewhere (Liu & Fan, 2018 ). The sample was pressurized to 6 GPa and heated to 1273 K for 40 min, and then quickly cooled to room temperature by turning off the furnace power. A single crystal was selected and mounted on a glass fiber for the X-ray diffraction study.

Refinement

Crystal data, data collection and structure refinement details are summarized in Table 1. For better comparison with previously reported Mg_43.83Ru_7.17 (Westin & Edshammar, 1973), the labelling scheme and atomic coordinates of Mg_44.29Ru₇ were adapted from it. Site occupancies of Mg1, Mg11 and Mg13 were refined freely. The maximum and minimum residual electron densities in the final difference map of Mg_44.29Ru₇ are located 1.80 Å from site Mg2 and 0.98 Å from Ru2, respectively.

Table 1
Experimental details

Crystal data
Chemical formula	Mg_44.29Ru₇
M_r	1784.30
Crystal system, space group	Cubic, F $[\overline{4}]$ 3m
Temperature (K)	296
a (Å)	20.480 (9)
V (Å³)	8591 (11)
Z	8
Radiation type	Mo Kα
μ (mm⁻¹)	3.05
Crystal size (mm)	0.10 × 0.08 × 0.08

Data collection
Diffractometer	Bruker D8 Venture Photon 100 CMOS
Absorption correction	Multi-scan (SADABS; Krause et al., 2015 )
T_min, T_max	0.623, 0.746
No. of measured, independent and observed [I > 2σ(I)] reflections	31409, 1021, 903
R_int	0.157
(sin θ/λ)_max (Å⁻¹)	0.645

Refinement
R[F² > 2σ(F²)], wR(F²), S	0.040, 0.063, 1.06
No. of reflections	1021
No. of parameters	65
Δρ_max, Δρ_min (e Å⁻³)	0.72, −0.81
Absolute structure	Flack x determined using 359 quotients [(I⁺)−(I⁻)]/[(I⁺)+(I⁻)] (Parsons et al., 2013 )
Absolute structure parameter	−0.05 (5)
Computer programs: APEX3 and SAINT (Bruker, 2023 ), SHELXT (Sheldrick, 2015a ), SHELXL (Sheldrick, 2015b ), DIAMOND (Brandenburg & Putz, 2017 ) and publCIF (Westrip, 2010 ).

Structural data

CCDC reference: 2480571

Crystal structure: contains datablock I. DOI: https://doi.org/10.1107/S2414314625007291/wm4234sup1.cif

Structure factors: contains datablock I. DOI: https://doi.org/10.1107/S2414314625007291/wm4234Isup2.hkl

modified supplementary materials. DOI: https://doi.org/10.1107/S2414314625007291/wm4234sup4.docx

checkCIF report

Computing details top

Tetratetracontamagnesium heptaruthenium top

Crystal data top

Mg_44.29Ru₇	Mo Kα radiation, λ = 0.71073 Å
M_r = 1784.30	Cell parameters from 5950 reflections
Cubic, F43m	θ = 2.8–26.2°
a = 20.480 (9) Å	µ = 3.05 mm⁻¹
V = 8591 (11) Å³	T = 296 K
Z = 8	Lump, gray
F(000) = 6716	0.10 × 0.08 × 0.08 mm
D_x = 2.759 Mg m⁻³

Data collection top

Bruker D8 Venture Photon 100 CMOS diffractometer	903 reflections with I > 2σ(I)
phi and ω scans	R_int = 0.157
Absorption correction: multi-scan (SADABS; Krause et al., 2015)	θ_max = 27.3°, θ_min = 2.8°
T_min = 0.623, T_max = 0.746	h = −26→26
31409 measured reflections	k = −26→21
1021 independent reflections	l = −26→26

Refinement top

Refinement on F²	0 restraints
Least-squares matrix: full	w = 1/[σ²(F_o²) + (0.0178P)² + 174.1245P] where P = (F_o² + 2F_c²)/3
R[F² > 2σ(F²)] = 0.040	(Δ/σ)_max < 0.001
wR(F²) = 0.063	Δρ_max = 0.72 e Å⁻³
S = 1.06	Δρ_min = −0.81 e Å⁻³
1021 reflections	Absolute structure: Flack x determined using 359 quotients [(I⁺)-(I^-)]/[(I⁺)+(I^-)] (Parsons et al., 2013)
65 parameters	Absolute structure parameter: −0.05 (5)

Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å²) top

	x	y	z	U_iso*/U_eq	Occ. (<1)
Ru1	0.250000	0.250000	0.58281 (7)	0.0136 (4)
Ru2	0.08650 (5)	0.08650 (5)	0.08650 (5)	0.0079 (4)
Ru3	0.34837 (5)	0.34837 (5)	0.34837 (5)	0.0032 (3)
Mg1	0.500000	0.500000	0.500000	0.014 (10)	0.59 (6)
Mg2	0.05113 (14)	0.05113 (14)	0.3415 (2)	0.0126 (10)
Mg3	0.10802 (14)	0.10802 (14)	0.2187 (2)	0.0092 (9)
Mg4	0.19177 (16)	0.19177 (16)	0.4794 (2)	0.0164 (10)
Mg5	0.09229 (18)	0.09229 (18)	0.7261 (2)	0.0266 (13)
Mg6	0.15752 (17)	0.15752 (17)	0.9815 (2)	0.0133 (11)
Mg7	0.250000	0.250000	0.3563 (3)	0.0127 (12)
Mg8	0.000000	0.000000	0.1817 (4)	0.0207 (17)
Mg9	0.6878 (4)	0.6878 (4)	0.6878 (4)	0.034 (3)
Mg10	0.8320 (2)	0.8320 (2)	0.8320 (2)	0.0103 (18)
Mg11	0.5809 (4)	0.5809 (4)	0.5809 (4)	0.012 (2)	0.671 (19)
Mg12	0.9447 (2)	0.9447 (2)	0.9447 (2)	0.019 (2)
Mg13	0.5583 (9)	0.5583 (9)	0.5583 (9)	0.012 (2)	0.329 (19)

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Mg1	0.014 (10)	0.014 (10)	0.014 (10)	0.000	0.000	0.000
Ru1	0.0160 (5)	0.0160 (5)	0.0088 (8)	0.0014 (8)	0.000	0.000
Ru2	0.0079 (4)	0.0079 (4)	0.0079 (4)	−0.0011 (5)	−0.0011 (5)	−0.0011 (5)
Ru3	0.0032 (3)	0.0032 (3)	0.0032 (3)	−0.0002 (4)	−0.0002 (4)	−0.0002 (4)
Mg2	0.0112 (14)	0.0112 (14)	0.015 (2)	−0.0001 (17)	0.0029 (13)	0.0029 (13)
Mg3	0.0106 (13)	0.0106 (13)	0.006 (2)	−0.0004 (16)	−0.0009 (12)	−0.0009 (12)
Mg4	0.0166 (15)	0.0166 (15)	0.016 (3)	0.005 (2)	−0.0056 (15)	−0.0056 (15)
Mg5	0.0249 (18)	0.0249 (18)	0.030 (3)	−0.003 (2)	−0.0044 (16)	−0.0044 (16)
Mg6	0.0153 (16)	0.0153 (16)	0.009 (2)	0.002 (2)	−0.0010 (13)	−0.0010 (13)
Mg7	0.0106 (17)	0.0106 (17)	0.017 (3)	−0.002 (3)	0.000	0.000
Mg8	0.021 (2)	0.021 (2)	0.021 (4)	0.003 (3)	0.000	0.000
Mg9	0.034 (3)	0.034 (3)	0.034 (3)	0.021 (3)	0.021 (3)	0.021 (3)
Mg10	0.0103 (18)	0.0103 (18)	0.0103 (18)	0.0023 (15)	0.0023 (15)	0.0023 (15)
Mg11	0.012 (2)	0.012 (2)	0.012 (2)	0.000 (3)	0.000 (3)	0.000 (3)
Mg12	0.019 (2)	0.019 (2)	0.019 (2)	−0.002 (2)	−0.002 (2)	−0.002 (2)
Mg13	0.012 (2)	0.012 (2)	0.012 (2)	0.000 (3)	0.000 (3)	0.000 (3)

Geometric parameters (Å, º) top

Ru1—Mg4	2.707 (5)	Mg4—Mg2^xxvi	3.025 (5)
Ru1—Mg4ⁱ	2.707 (5)	Mg4—Mg2^xxvii	3.025 (5)
Ru1—Mg9ⁱⁱ	2.8050 (19)	Mg4—Mg5^x	3.160 (4)
Ru1—Mg9ⁱⁱⁱ	2.8050 (19)	Mg4—Mg5^xi	3.160 (4)
Ru1—Mg10^iv	2.947 (3)	Mg4—Mg4ⁱ	3.373 (10)
Ru1—Mg10^v	2.947 (3)	Mg13—Mg2^xxix	3.042 (4)
Ru1—Mg6^vi	2.985 (5)	Mg13—Mg2^xxiv	3.042 (4)
Ru1—Mg6^vii	2.985 (5)	Mg13—Mg2^ix	3.042 (4)
Ru1—Mg5^viii	3.273 (4)	Mg13—Mg2^xxx	3.042 (4)
Ru1—Mg5^ix	3.273 (4)	Mg13—Mg2^xxxi	3.042 (4)
Ru1—Mg5^x	3.273 (4)	Mg13—Mg13ⁱⁱ	3.38 (5)
Ru1—Mg5^xi	3.273 (4)	Mg13—Mg13^xxii	3.38 (5)
Ru2—Mg3^xii	2.778 (4)	Mg13—Mg13^xxiii	3.38 (5)
Ru2—Mg3^xiii	2.778 (4)	Mg13—Mg5^xxxii	3.58 (2)
Ru2—Mg3	2.778 (4)	Mg13—Mg5^xxxiii	3.58 (2)
Ru2—Mg6^xiv	2.976 (5)	Mg5—Mg9ⁱⁱⁱ	2.876 (9)
Ru2—Mg6^xv	2.976 (5)	Mg6—Mg12ⁱⁱ	3.054 (7)
Ru2—Mg6^xvi	2.976 (5)	Mg6—Mg10ⁱⁱ	3.075 (7)
Ru2—Mg12^xvii	3.042 (3)	Mg6—Mg5^xxxiv	3.122 (5)
Ru2—Mg12^xviii	3.042 (3)	Mg6—Mg5^xxxv	3.122 (5)
Ru2—Mg12^xix	3.042 (3)	Mg6—Mg4^vi	3.265 (5)
Ru2—Mg8	3.175 (5)	Mg6—Mg4^vii	3.265 (5)
Ru2—Mg8^xii	3.175 (5)	Mg6—Mg8^xxxvi	3.286 (4)
Ru2—Mg8^xiii	3.175 (5)	Mg6—Mg8^xxxvii	3.286 (4)
Ru3—Mg7^xii	2.8540 (19)	Mg7—Mg4ⁱ	3.033 (6)
Ru3—Mg7^xiii	2.8540 (19)	Mg7—Mg4	3.033 (6)
Ru3—Mg7	2.8540 (19)	Mg7—Mg3^xx	3.066 (4)
Ru3—Mg2^xx	2.914 (4)	Mg7—Mg3^xxi	3.066 (4)
Ru3—Mg2^xxi	2.914 (4)	Mg7—Mg3^xxvi	3.066 (4)
Ru3—Mg2ⁱ	2.914 (4)	Mg7—Mg3^xxvii	3.066 (4)
Ru3—Mg4^xx	2.925 (5)	Mg7—Mg7^xxvi	3.080 (8)
Ru3—Mg4ⁱ	2.925 (5)	Mg7—Mg7^xxxviii	3.080 (8)
Ru3—Mg4^xxi	2.925 (5)	Mg7—Mg7^xiii	3.080 (8)
Ru3—Mg3ⁱ	2.941 (4)	Mg7—Mg7^xii	3.080 (8)
Ru3—Mg3^xx	2.941 (4)	Mg8—Mg12^xvii	3.045 (7)
Ru3—Mg3^xxi	2.941 (4)	Mg8—Mg12^xviii	3.045 (7)
Mg1—Mg13^xxii	2.07 (3)	Mg8—Mg5^xxviii	3.272 (8)
Mg1—Mg13^xxiii	2.07 (3)	Mg8—Mg5^xxxix	3.272 (8)
Mg1—Mg13ⁱⁱ	2.07 (3)	Mg9—Mg9^xl	3.60 (2)
Mg1—Mg13	2.07 (3)	Mg9—Mg9^xli	3.60 (2)
Mg1—Mg11^xxiii	2.869 (15)	Mg9—Mg9^xlii	3.60 (2)
Mg1—Mg11^xxii	2.869 (15)	Mg10—Mg9^xlii	3.009 (9)
Mg1—Mg11ⁱⁱ	2.869 (15)	Mg10—Mg9^xli	3.009 (9)
Mg1—Mg11	2.869 (15)	Mg10—Mg9^xl	3.009 (9)
Mg1—Mg2^xxi	3.568 (5)	Mg10—Mg5^xliii	3.084 (5)
Mg1—Mg2ⁱ	3.568 (4)	Mg10—Mg5^xliv	3.084 (5)
Mg1—Mg2^xx	3.568 (5)	Mg10—Mg5ⁱⁱ	3.084 (5)
Mg1—Mg2^xxiv	3.568 (5)	Mg11—Mg5^xxxii	2.993 (11)
Mg2—Mg2^xxv	2.962 (8)	Mg11—Mg5^xxxiii	2.993 (11)
Mg2—Mg2^xxvi	3.110 (8)	Mg11—Mg5^xlv	2.993 (11)
Mg2—Mg2^xxvii	3.110 (8)	Mg11—Mg2^viii	3.195 (5)
Mg2—Mg5^xxviii	3.355 (5)	Mg11—Mg2^xxx	3.195 (5)
Mg3—Mg2	3.007 (6)	Mg11—Mg2^xxix	3.195 (5)
Mg3—Mg6^xiv	3.052 (4)	Mg11—Mg2^xxiv	3.195 (5)
Mg3—Mg6^xv	3.052 (4)	Mg11—Mg2^ix	3.195 (5)
Mg3—Mg4^xxvi	3.085 (3)	Mg11—Mg2^xxxi	3.195 (5)
Mg3—Mg4^xxvii	3.085 (3)	Mg12—Mg12^xlvi	3.205 (14)
Mg3—Mg3^xii	3.205 (7)	Mg12—Mg12^xlvii	3.205 (14)
Mg3—Mg3^xiii	3.205 (7)	Mg12—Mg12^xlviii	3.205 (14)
Mg3—Mg8	3.219 (5)	Mg13—Mg2^viii	3.042 (4)

Mg7^xii—Ru3—Mg7^xiii	65.3 (2)	Ru2^xlix—Mg6—Mg5^xxxv	120.91 (13)
Mg7^xii—Ru3—Mg7	65.3 (2)	Ru1^vii—Mg6—Mg5^xxxv	64.76 (13)
Mg7^xiii—Ru3—Mg7	65.3 (2)	Mg3^xxxvii—Mg6—Mg5^xxxv	87.45 (12)
Mg7^xii—Ru3—Mg2^xx	179.49 (17)	Mg3^xxxvi—Mg6—Mg5^xxxv	147.16 (15)
Mg7^xiii—Ru3—Mg2^xx	115.10 (11)	Mg12ⁱⁱ—Mg6—Mg5^xxxv	96.34 (13)
Mg7—Ru3—Mg2^xx	115.09 (11)	Mg10ⁱⁱ—Mg6—Mg5^xxxv	59.68 (12)
Mg7^xii—Ru3—Mg2^xxi	115.10 (11)	Mg5^xxxiv—Mg6—Mg5^xxxv	114.8 (2)
Mg7^xiii—Ru3—Mg2^xxi	179.49 (17)	Ru2^xlix—Mg6—Mg4^vi	112.95 (13)
Mg7—Ru3—Mg2^xxi	115.09 (11)	Ru1^vii—Mg6—Mg4^vi	51.09 (10)
Mg2^xx—Ru3—Mg2^xxi	64.50 (14)	Mg3^xxxvii—Mg6—Mg4^vi	58.35 (10)
Mg7^xii—Ru3—Mg2ⁱ	115.10 (11)	Mg3^xxxvi—Mg6—Mg4^vi	91.02 (15)
Mg7^xiii—Ru3—Mg2ⁱ	115.10 (11)	Mg12ⁱⁱ—Mg6—Mg4^vi	148.82 (9)
Mg7—Ru3—Mg2ⁱ	179.49 (17)	Mg10ⁱⁱ—Mg6—Mg4^vi	99.40 (18)
Mg2^xx—Ru3—Mg2ⁱ	64.50 (14)	Mg5^xxxiv—Mg6—Mg4^vi	111.05 (18)
Mg2^xxi—Ru3—Mg2ⁱ	64.50 (14)	Mg5^xxxv—Mg6—Mg4^vi	59.26 (11)
Mg7^xii—Ru3—Mg4^xx	63.31 (14)	Ru2^xlix—Mg6—Mg4^vii	112.95 (13)
Mg7^xiii—Ru3—Mg4^xx	117.74 (9)	Ru1^vii—Mg6—Mg4^vii	51.09 (10)
Mg7—Ru3—Mg4^xx	117.74 (9)	Mg3^xxxvii—Mg6—Mg4^vii	91.02 (15)
Mg2^xx—Ru3—Mg4^xx	116.19 (14)	Mg3^xxxvi—Mg6—Mg4^vii	58.35 (10)
Mg2^xxi—Ru3—Mg4^xx	62.41 (8)	Mg12ⁱⁱ—Mg6—Mg4^vii	148.82 (9)
Mg2ⁱ—Ru3—Mg4^xx	62.41 (8)	Mg10ⁱⁱ—Mg6—Mg4^vii	99.40 (18)
Mg7^xii—Ru3—Mg4ⁱ	117.74 (9)	Mg5^xxxiv—Mg6—Mg4^vii	59.26 (11)
Mg7^xiii—Ru3—Mg4ⁱ	117.74 (9)	Mg5^xxxv—Mg6—Mg4^vii	111.05 (18)
Mg7—Ru3—Mg4ⁱ	63.31 (14)	Mg4^vi—Mg6—Mg4^vii	62.21 (17)
Mg2^xx—Ru3—Mg4ⁱ	62.41 (8)	Ru2^xlix—Mg6—Mg8^xxxvi	60.69 (13)
Mg2^xxi—Ru3—Mg4ⁱ	62.41 (8)	Ru1^vii—Mg6—Mg8^xxxvi	125.32 (15)
Mg2ⁱ—Ru3—Mg4ⁱ	116.19 (14)	Mg3^xxxvii—Mg6—Mg8^xxxvi	110.80 (15)
Mg4^xx—Ru3—Mg4ⁱ	115.90 (7)	Mg3^xxxvi—Mg6—Mg8^xxxvi	60.91 (10)
Mg7^xii—Ru3—Mg4^xxi	117.74 (9)	Mg12ⁱⁱ—Mg6—Mg8^xxxvi	57.26 (15)
Mg7^xiii—Ru3—Mg4^xxi	63.31 (14)	Mg10ⁱⁱ—Mg6—Mg8^xxxvi	99.94 (11)
Mg7—Ru3—Mg4^xxi	117.74 (9)	Mg5^xxxiv—Mg6—Mg8^xxxvi	61.35 (16)
Mg2^xx—Ru3—Mg4^xxi	62.41 (8)	Mg5^xxxv—Mg6—Mg8^xxxvi	150.45 (17)
Mg2^xxi—Ru3—Mg4^xxi	116.19 (14)	Mg4^vi—Mg6—Mg8^xxxvi	150.16 (17)
Mg2ⁱ—Ru3—Mg4^xxi	62.41 (8)	Mg4^vii—Mg6—Mg8^xxxvi	92.29 (17)
Mg4^xx—Ru3—Mg4^xxi	115.90 (7)	Ru2^xlix—Mg6—Mg8^xxxvii	60.69 (13)
Mg4ⁱ—Ru3—Mg4^xxi	115.90 (7)	Ru1^vii—Mg6—Mg8^xxxvii	125.32 (15)
Mg7^xii—Ru3—Mg3ⁱ	63.86 (7)	Mg3^xxxvii—Mg6—Mg8^xxxvii	60.91 (10)
Mg7^xiii—Ru3—Mg3ⁱ	63.86 (7)	Mg3^xxxvi—Mg6—Mg8^xxxvii	110.80 (15)
Mg7—Ru3—Mg3ⁱ	118.71 (17)	Mg12ⁱⁱ—Mg6—Mg8^xxxvii	57.26 (15)
Mg2^xx—Ru3—Mg3ⁱ	115.98 (8)	Mg10ⁱⁱ—Mg6—Mg8^xxxvii	99.94 (11)
Mg2^xxi—Ru3—Mg3ⁱ	115.98 (8)	Mg5^xxxiv—Mg6—Mg8^xxxvii	150.45 (17)
Mg2ⁱ—Ru3—Mg3ⁱ	61.80 (12)	Mg5^xxxv—Mg6—Mg8^xxxvii	61.35 (16)
Mg4^xx—Ru3—Mg3ⁱ	63.44 (4)	Mg4^vi—Mg6—Mg8^xxxvii	92.29 (17)
Mg4ⁱ—Ru3—Mg3ⁱ	177.99 (15)	Mg4^vii—Mg6—Mg8^xxxvii	150.16 (17)
Mg4^xxi—Ru3—Mg3ⁱ	63.44 (4)	Mg8^xxxvi—Mg6—Mg8^xxxvii	106.4 (3)
Mg7^xii—Ru3—Mg3^xx	118.71 (17)	Ru1^l—Mg10—Ru1^li	110.46 (15)
Mg7^xiii—Ru3—Mg3^xx	63.86 (7)	Ru1^l—Mg10—Ru1^lii	110.46 (15)
Mg7—Ru3—Mg3^xx	63.86 (7)	Ru1^li—Mg10—Ru1^lii	110.46 (15)
Mg2^xx—Ru3—Mg3^xx	61.80 (12)	Ru1^l—Mg10—Mg9^xlii	115.2 (3)
Mg2^xxi—Ru3—Mg3^xx	115.98 (8)	Ru1^li—Mg10—Mg9^xlii	56.17 (10)
Mg2ⁱ—Ru3—Mg3^xx	115.98 (8)	Ru1^lii—Mg10—Mg9^xlii	56.17 (10)
Mg4^xx—Ru3—Mg3^xx	177.99 (15)	Ru1^l—Mg10—Mg9^xli	56.17 (10)
Mg4ⁱ—Ru3—Mg3^xx	63.44 (4)	Ru1^li—Mg10—Mg9^xli	115.2 (3)
Mg4^xxi—Ru3—Mg3^xx	63.44 (4)	Ru1^lii—Mg10—Mg9^xli	56.17 (10)
Mg3ⁱ—Ru3—Mg3^xx	117.15 (5)	Mg9^xlii—Mg10—Mg9^xli	73.5 (4)
Mg7^xii—Ru3—Mg3^xxi	63.86 (7)	Ru1^l—Mg10—Mg9^xl	56.17 (10)
Mg7^xiii—Ru3—Mg3^xxi	118.71 (17)	Ru1^li—Mg10—Mg9^xl	56.17 (10)
Mg7—Ru3—Mg3^xxi	63.86 (7)	Ru1^lii—Mg10—Mg9^xl	115.2 (3)
Mg2^xx—Ru3—Mg3^xxi	115.98 (8)	Mg9^xlii—Mg10—Mg9^xl	73.5 (4)
Mg2^xxi—Ru3—Mg3^xxi	61.80 (12)	Mg9^xli—Mg10—Mg9^xl	73.5 (4)
Mg2ⁱ—Ru3—Mg3^xxi	115.98 (8)	Ru1^l—Mg10—Mg6^xliii	59.37 (10)
Mg4^xx—Ru3—Mg3^xxi	63.44 (4)	Ru1^li—Mg10—Mg6^xliii	124.46 (11)
Mg4ⁱ—Ru3—Mg3^xxi	63.44 (4)	Ru1^lii—Mg10—Mg6^xliii	124.46 (11)
Mg4^xxi—Ru3—Mg3^xxi	177.99 (15)	Mg9^xlii—Mg10—Mg6^xliii	174.6 (3)
Mg3ⁱ—Ru3—Mg3^xxi	117.15 (5)	Mg9^xli—Mg10—Mg6^xliii	102.25 (17)
Mg3^xx—Ru3—Mg3^xxi	117.15 (5)	Mg9^xl—Mg10—Mg6^xliii	102.25 (17)
Mg3^xii—Ru2—Mg3^xiii	70.46 (14)	Ru1^l—Mg10—Mg6^xliv	124.46 (11)
Mg3^xii—Ru2—Mg3	70.46 (14)	Ru1^li—Mg10—Mg6^xliv	124.46 (11)
Mg3^xiii—Ru2—Mg3	70.46 (14)	Ru1^lii—Mg10—Mg6^xliv	59.37 (10)
Mg3^xii—Ru2—Mg6^xiv	123.31 (13)	Mg9^xlii—Mg10—Mg6^xliv	102.25 (17)
Mg3^xiii—Ru2—Mg6^xiv	63.95 (7)	Mg9^xli—Mg10—Mg6^xliv	102.25 (17)
Mg3—Ru2—Mg6^xiv	63.95 (7)	Mg9^xl—Mg10—Mg6^xliv	174.6 (3)
Mg3^xii—Ru2—Mg6^xv	63.95 (7)	Mg6^xliii—Mg10—Mg6^xliv	81.8 (2)
Mg3^xiii—Ru2—Mg6^xv	123.31 (13)	Ru1^l—Mg10—Mg6ⁱⁱ	124.46 (11)
Mg3—Ru2—Mg6^xv	63.95 (7)	Ru1^li—Mg10—Mg6ⁱⁱ	59.37 (10)
Mg6^xiv—Ru2—Mg6^xv	117.88 (4)	Ru1^lii—Mg10—Mg6ⁱⁱ	124.46 (11)
Mg3^xii—Ru2—Mg6^xvi	63.95 (7)	Mg9^xlii—Mg10—Mg6ⁱⁱ	102.25 (17)
Mg3^xiii—Ru2—Mg6^xvi	63.95 (7)	Mg9^xli—Mg10—Mg6ⁱⁱ	174.6 (3)
Mg3—Ru2—Mg6^xvi	123.31 (13)	Mg9^xl—Mg10—Mg6ⁱⁱ	102.25 (17)
Mg6^xiv—Ru2—Mg6^xvi	117.88 (4)	Mg6^xliii—Mg10—Mg6ⁱⁱ	81.8 (2)
Mg6^xv—Ru2—Mg6^xvi	117.88 (4)	Mg6^xliv—Mg10—Mg6ⁱⁱ	81.8 (2)
Mg3^xii—Ru2—Mg12^xvii	112.91 (14)	Ru1^l—Mg10—Mg5^xliii	171.6 (3)
Mg3^xiii—Ru2—Mg12^xvii	175.70 (18)	Ru1^li—Mg10—Mg5^xliii	65.68 (5)
Mg3—Ru2—Mg12^xvii	112.91 (14)	Ru1^lii—Mg10—Mg5^xliii	65.68 (5)
Mg6^xiv—Ru2—Mg12^xvii	114.68 (9)	Mg9^xlii—Mg10—Mg5^xliii	56.3 (2)
Mg6^xv—Ru2—Mg12^xvii	60.99 (17)	Mg9^xli—Mg10—Mg5^xliii	117.78 (16)
Mg6^xvi—Ru2—Mg12^xvii	114.68 (9)	Mg9^xl—Mg10—Mg5^xliii	117.78 (16)
Mg3^xii—Ru2—Mg12^xviii	175.70 (18)	Mg6^xliii—Mg10—Mg5^xliii	129.1 (3)
Mg3^xiii—Ru2—Mg12^xviii	112.91 (14)	Mg6^xliv—Mg10—Mg5^xliii	60.92 (10)
Mg3—Ru2—Mg12^xviii	112.91 (14)	Mg6ⁱⁱ—Mg10—Mg5^xliii	60.92 (10)
Mg6^xiv—Ru2—Mg12^xviii	60.99 (17)	Ru1^l—Mg10—Mg5^xliv	65.68 (5)
Mg6^xv—Ru2—Mg12^xviii	114.68 (9)	Ru1^li—Mg10—Mg5^xliv	65.68 (5)
Mg6^xvi—Ru2—Mg12^xviii	114.68 (9)	Ru1^lii—Mg10—Mg5^xliv	171.6 (3)
Mg12^xvii—Ru2—Mg12^xviii	63.6 (2)	Mg9^xlii—Mg10—Mg5^xliv	117.78 (16)
Mg3^xii—Ru2—Mg12^xix	112.91 (14)	Mg9^xli—Mg10—Mg5^xliv	117.78 (16)
Mg3^xiii—Ru2—Mg12^xix	112.91 (14)	Mg9^xl—Mg10—Mg5^xliv	56.3 (2)
Mg3—Ru2—Mg12^xix	175.70 (18)	Mg6^xliii—Mg10—Mg5^xliv	60.92 (10)
Mg6^xiv—Ru2—Mg12^xix	114.68 (9)	Mg6^xliv—Mg10—Mg5^xliv	129.1 (3)
Mg6^xv—Ru2—Mg12^xix	114.68 (9)	Mg6ⁱⁱ—Mg10—Mg5^xliv	60.92 (10)
Mg6^xvi—Ru2—Mg12^xix	60.99 (17)	Mg5^xliii—Mg10—Mg5^xliv	117.04 (10)
Mg12^xvii—Ru2—Mg12^xix	63.6 (2)	Ru1^l—Mg10—Mg5ⁱⁱ	65.68 (5)
Mg12^xviii—Ru2—Mg12^xix	63.6 (2)	Ru1^li—Mg10—Mg5ⁱⁱ	171.6 (3)
Mg3^xii—Ru2—Mg8	122.33 (9)	Ru1^lii—Mg10—Mg5ⁱⁱ	65.68 (5)
Mg3^xiii—Ru2—Mg8	122.33 (9)	Mg9^xlii—Mg10—Mg5ⁱⁱ	117.78 (16)
Mg3—Ru2—Mg8	65.07 (14)	Mg9^xli—Mg10—Mg5ⁱⁱ	56.3 (2)
Mg6^xiv—Ru2—Mg8	64.48 (5)	Mg9^xl—Mg10—Mg5ⁱⁱ	117.78 (16)
Mg6^xv—Ru2—Mg8	64.48 (5)	Mg6^xliii—Mg10—Mg5ⁱⁱ	60.92 (10)
Mg6^xvi—Ru2—Mg8	171.62 (15)	Mg6^xliv—Mg10—Mg5ⁱⁱ	60.92 (10)
Mg12^xvii—Ru2—Mg8	58.60 (10)	Mg6ⁱⁱ—Mg10—Mg5ⁱⁱ	129.1 (3)
Mg12^xviii—Ru2—Mg8	58.60 (10)	Mg5^xliii—Mg10—Mg5ⁱⁱ	117.04 (10)
Mg12^xix—Ru2—Mg8	110.63 (19)	Mg5^xliv—Mg10—Mg5ⁱⁱ	117.04 (10)
Mg3^xii—Ru2—Mg8^xii	65.06 (14)	Ru1—Mg4—Ru3ⁱ	164.87 (19)
Mg3^xiii—Ru2—Mg8^xii	122.33 (9)	Ru1—Mg4—Mg2^xxvi	132.89 (14)
Mg3—Ru2—Mg8^xii	122.33 (9)	Ru3ⁱ—Mg4—Mg2^xxvi	58.61 (11)
Mg6^xiv—Ru2—Mg8^xii	171.62 (15)	Ru1—Mg4—Mg2^xxvii	132.89 (14)
Mg6^xv—Ru2—Mg8^xii	64.48 (5)	Ru3ⁱ—Mg4—Mg2^xxvii	58.61 (11)
Mg6^xvi—Ru2—Mg8^xii	64.48 (5)	Mg2^xxvi—Mg4—Mg2^xxvii	61.86 (19)
Mg12^xvii—Ru2—Mg8^xii	58.60 (10)	Ru1—Mg4—Mg7	107.67 (16)
Mg12^xviii—Ru2—Mg8^xii	110.63 (19)	Ru3ⁱ—Mg4—Mg7	57.20 (10)
Mg12^xix—Ru2—Mg8^xii	58.60 (10)	Mg2^xxvi—Mg4—Mg7	106.91 (15)
Mg8—Ru2—Mg8^xii	111.97 (10)	Mg2^xxvii—Mg4—Mg7	106.91 (15)
Mg3^xii—Ru2—Mg8^xiii	122.33 (9)	Ru1—Mg4—Mg3^xxvi	115.92 (13)
Mg3^xiii—Ru2—Mg8^xiii	65.06 (14)	Ru3ⁱ—Mg4—Mg3^xxvi	58.53 (11)
Mg3—Ru2—Mg8^xiii	122.33 (9)	Mg2^xxvi—Mg4—Mg3^xxvi	58.96 (11)
Mg6^xiv—Ru2—Mg8^xiii	64.48 (5)	Mg2^xxvii—Mg4—Mg3^xxvi	108.70 (18)
Mg6^xv—Ru2—Mg8^xiii	171.62 (15)	Mg7—Mg4—Mg3^xxvi	60.14 (11)
Mg6^xvi—Ru2—Mg8^xiii	64.48 (5)	Ru1—Mg4—Mg3^xxvii	115.92 (13)
Mg12^xvii—Ru2—Mg8^xiii	110.63 (19)	Ru3ⁱ—Mg4—Mg3^xxvii	58.53 (11)
Mg12^xviii—Ru2—Mg8^xiii	58.60 (10)	Mg2^xxvi—Mg4—Mg3^xxvii	108.70 (18)
Mg12^xix—Ru2—Mg8^xiii	58.60 (10)	Mg2^xxvii—Mg4—Mg3^xxvii	58.96 (11)
Mg8—Ru2—Mg8^xiii	111.97 (10)	Mg7—Mg4—Mg3^xxvii	60.14 (11)
Mg8^xii—Ru2—Mg8^xiii	111.97 (10)	Mg3^xxvi—Mg4—Mg3^xxvii	108.9 (2)
Mg4—Ru1—Mg4ⁱ	77.09 (19)	Ru1—Mg4—Mg5^x	67.29 (13)
Mg4—Ru1—Mg9ⁱⁱ	178.6 (3)	Ru3ⁱ—Mg4—Mg5^x	123.54 (15)
Mg4ⁱ—Ru1—Mg9ⁱⁱ	101.5 (3)	Mg2^xxvi—Mg4—Mg5^x	65.65 (13)
Mg4—Ru1—Mg9ⁱⁱⁱ	101.5 (3)	Mg2^xxvii—Mg4—Mg5^x	102.60 (18)
Mg4ⁱ—Ru1—Mg9ⁱⁱⁱ	178.6 (3)	Mg7—Mg4—Mg5^x	140.70 (12)
Mg9ⁱⁱ—Ru1—Mg9ⁱⁱⁱ	79.9 (5)	Mg3^xxvi—Mg4—Mg5^x	86.21 (13)
Mg4—Ru1—Mg10^iv	117.56 (12)	Mg3^xxvii—Mg4—Mg5^x	158.72 (18)
Mg4ⁱ—Ru1—Mg10^iv	117.56 (12)	Ru1—Mg4—Mg5^xi	67.29 (13)
Mg9ⁱⁱ—Ru1—Mg10^iv	63.03 (17)	Ru3ⁱ—Mg4—Mg5^xi	123.54 (15)
Mg9ⁱⁱⁱ—Ru1—Mg10^iv	63.03 (17)	Mg2^xxvi—Mg4—Mg5^xi	102.60 (18)
Mg4—Ru1—Mg10^v	117.56 (12)	Mg2^xxvii—Mg4—Mg5^xi	65.65 (13)
Mg4ⁱ—Ru1—Mg10^v	117.56 (12)	Mg7—Mg4—Mg5^xi	140.70 (12)
Mg9ⁱⁱ—Ru1—Mg10^v	63.03 (17)	Mg3^xxvi—Mg4—Mg5^xi	158.72 (18)
Mg9ⁱⁱⁱ—Ru1—Mg10^v	63.03 (17)	Mg3^xxvii—Mg4—Mg5^xi	86.21 (13)
Mg10^iv—Ru1—Mg10^v	107.5 (3)	Mg5^x—Mg4—Mg5^xi	75.6 (2)
Mg4—Ru1—Mg6^vi	69.82 (7)	Ru1—Mg4—Mg6^vi	59.10 (10)
Mg4ⁱ—Ru1—Mg6^vi	69.82 (7)	Ru3ⁱ—Mg4—Mg6^vi	115.48 (12)
Mg9ⁱⁱ—Ru1—Mg6^vi	109.77 (10)	Mg2^xxvi—Mg4—Mg6^vi	93.39 (10)
Mg9ⁱⁱⁱ—Ru1—Mg6^vi	109.77 (10)	Mg2^xxvii—Mg4—Mg6^vi	154.48 (15)
Mg10^iv—Ru1—Mg6^vi	62.45 (17)	Mg7—Mg4—Mg6^vi	85.21 (12)
Mg10^v—Ru1—Mg6^vi	169.91 (18)	Mg3^xxvi—Mg4—Mg6^vi	57.37 (11)
Mg4—Ru1—Mg6^vii	69.82 (7)	Mg3^xxvii—Mg4—Mg6^vi	142.73 (18)
Mg4ⁱ—Ru1—Mg6^vii	69.82 (7)	Mg5^x—Mg4—Mg6^vi	58.12 (11)
Mg9ⁱⁱ—Ru1—Mg6^vii	109.77 (10)	Mg5^xi—Mg4—Mg6^vi	118.56 (18)
Mg9ⁱⁱⁱ—Ru1—Mg6^vii	109.77 (10)	Ru1—Mg4—Mg6^vii	59.10 (10)
Mg10^iv—Ru1—Mg6^vii	169.91 (18)	Ru3ⁱ—Mg4—Mg6^vii	115.48 (12)
Mg10^v—Ru1—Mg6^vii	62.45 (17)	Mg2^xxvi—Mg4—Mg6^vii	154.48 (15)
Mg6^vi—Ru1—Mg6^vii	127.65 (17)	Mg2^xxvii—Mg4—Mg6^vii	93.39 (10)
Mg4—Ru1—Mg5^viii	123.17 (11)	Mg7—Mg4—Mg6^vii	85.21 (12)
Mg4ⁱ—Ru1—Mg5^viii	62.98 (10)	Mg3^xxvi—Mg4—Mg6^vii	142.73 (18)
Mg9ⁱⁱ—Ru1—Mg5^viii	55.85 (19)	Mg3^xxvii—Mg4—Mg6^vii	57.37 (11)
Mg9ⁱⁱⁱ—Ru1—Mg5^viii	118.1 (2)	Mg5^x—Mg4—Mg6^vii	118.56 (18)
Mg10^iv—Ru1—Mg5^viii	116.25 (12)	Mg5^xi—Mg4—Mg6^vii	58.12 (11)
Mg10^v—Ru1—Mg5^viii	59.17 (9)	Mg6^vi—Mg4—Mg6^vii	110.25 (18)
Mg6^vi—Ru1—Mg5^viii	123.89 (8)	Ru1—Mg4—Mg4ⁱ	51.46 (9)
Mg6^vii—Ru1—Mg5^viii	59.65 (10)	Ru3ⁱ—Mg4—Mg4ⁱ	113.42 (10)
Mg4—Ru1—Mg5^ix	123.17 (11)	Mg2^xxvi—Mg4—Mg4ⁱ	146.35 (9)
Mg4ⁱ—Ru1—Mg5^ix	62.98 (10)	Mg2^xxvii—Mg4—Mg4ⁱ	146.35 (9)
Mg9ⁱⁱ—Ru1—Mg5^ix	55.85 (19)	Mg7—Mg4—Mg4ⁱ	56.22 (11)
Mg9ⁱⁱⁱ—Ru1—Mg5^ix	118.1 (2)	Mg3^xxvi—Mg4—Mg4ⁱ	88.44 (11)
Mg10^iv—Ru1—Mg5^ix	59.17 (9)	Mg3^xxvii—Mg4—Mg4ⁱ	88.44 (11)
Mg10^v—Ru1—Mg5^ix	116.25 (12)	Mg5^x—Mg4—Mg4ⁱ	107.37 (12)
Mg6^vi—Ru1—Mg5^ix	59.65 (10)	Mg5^xi—Mg4—Mg4ⁱ	107.37 (12)
Mg6^vii—Ru1—Mg5^ix	123.89 (8)	Mg6^vi—Mg4—Mg4ⁱ	58.90 (9)
Mg5^viii—Ru1—Mg5^ix	72.62 (18)	Mg6^vii—Mg4—Mg4ⁱ	58.90 (9)
Mg4—Ru1—Mg5^x	62.97 (10)	Ru3ⁱ—Mg2—Mg2^xxv	177.23 (9)
Mg4ⁱ—Ru1—Mg5^x	123.17 (11)	Ru3ⁱ—Mg2—Mg3	59.54 (11)
Mg9ⁱⁱ—Ru1—Mg5^x	118.1 (2)	Mg2^xxv—Mg2—Mg3	123.23 (11)
Mg9ⁱⁱⁱ—Ru1—Mg5^x	55.85 (19)	Ru3ⁱ—Mg2—Mg4^xxvii	58.98 (10)
Mg10^iv—Ru1—Mg5^x	59.17 (9)	Mg2^xxv—Mg2—Mg4^xxvii	121.79 (11)
Mg10^v—Ru1—Mg5^x	116.25 (12)	Mg3—Mg2—Mg4^xxvii	61.51 (10)
Mg6^vi—Ru1—Mg5^x	59.65 (10)	Ru3ⁱ—Mg2—Mg4^xxvi	58.98 (10)
Mg6^vii—Ru1—Mg5^x	123.89 (8)	Mg2^xxv—Mg2—Mg4^xxvi	121.79 (11)
Mg5^viii—Ru1—Mg5^x	173.20 (15)	Mg3—Mg2—Mg4^xxvi	61.51 (10)
Mg5^ix—Ru1—Mg5^x	106.96 (17)	Mg4^xxvii—Mg2—Mg4^xxvi	110.1 (2)
Mg4—Ru1—Mg5^xi	62.97 (10)	Ru3ⁱ—Mg2—Mg13^liii	116.98 (12)
Mg4ⁱ—Ru1—Mg5^xi	123.17 (11)	Mg2^xxv—Mg2—Mg13^liii	60.87 (8)
Mg9ⁱⁱ—Ru1—Mg5^xi	118.1 (2)	Mg3—Mg2—Mg13^liii	146.2 (6)
Mg9ⁱⁱⁱ—Ru1—Mg5^xi	55.85 (19)	Mg4^xxvii—Mg2—Mg13^liii	149.7 (6)
Mg10^iv—Ru1—Mg5^xi	116.25 (12)	Mg4^xxvi—Mg2—Mg13^liii	87.3 (5)
Mg10^v—Ru1—Mg5^xi	59.17 (9)	Ru3ⁱ—Mg2—Mg13^liv	116.98 (12)
Mg6^vi—Ru1—Mg5^xi	123.89 (8)	Mg2^xxv—Mg2—Mg13^liv	60.87 (8)
Mg6^vii—Ru1—Mg5^xi	59.65 (10)	Mg3—Mg2—Mg13^liv	146.2 (6)
Mg5^viii—Ru1—Mg5^xi	106.96 (17)	Mg4^xxvii—Mg2—Mg13^liv	87.3 (5)
Mg5^ix—Ru1—Mg5^xi	173.20 (15)	Mg4^xxvi—Mg2—Mg13^liv	149.7 (6)
Mg5^x—Ru1—Mg5^xi	72.62 (18)	Ru3ⁱ—Mg2—Mg2^xxvi	57.75 (7)
Mg13^xxii—Mg1—Mg13	109.471 (6)	Mg2^xxv—Mg2—Mg2^xxvi	120.0
Mg13^xxiii—Mg1—Mg13	109.471 (6)	Mg3—Mg2—Mg2^xxvi	108.51 (10)
Mg13ⁱⁱ—Mg1—Mg13	109.471 (3)	Mg4^xxvii—Mg2—Mg2^xxvi	59.07 (9)
Mg11^xxiii—Mg1—Mg11^xxii	109.5	Mg4^xxvi—Mg2—Mg2^xxvi	107.79 (10)
Mg11^xxiii—Mg1—Mg11ⁱⁱ	109.471 (1)	Mg13^liii—Mg2—Mg2^xxvi	92.5 (5)
Mg11^xxii—Mg1—Mg11ⁱⁱ	109.5	Mg13^liv—Mg2—Mg2^xxvi	59.26 (8)
Mg11^xxiii—Mg1—Mg11	109.471 (2)	Ru3ⁱ—Mg2—Mg2^xxvii	57.75 (7)
Mg11^xxii—Mg1—Mg11	109.471 (2)	Mg2^xxv—Mg2—Mg2^xxvii	120.0
Mg11ⁱⁱ—Mg1—Mg11	109.471 (1)	Mg3—Mg2—Mg2^xxvii	108.51 (10)
Mg13^xxii—Mg1—Mg2^xxi	100.74 (7)	Mg4^xxvii—Mg2—Mg2^xxvii	107.79 (10)
Mg13^xxiii—Mg1—Mg2^xxi	58.314 (19)	Mg4^xxvi—Mg2—Mg2^xxvii	59.07 (10)
Mg13ⁱⁱ—Mg1—Mg2^xxi	58.314 (19)	Mg13^liii—Mg2—Mg2^xxvii	59.26 (8)
Mg13—Mg1—Mg2^xxi	149.79 (7)	Mg13^liv—Mg2—Mg2^xxvii	92.5 (5)
Mg11^xxiii—Mg1—Mg2^xxi	58.314 (19)	Mg2^xxvi—Mg2—Mg2^xxvii	60.0
Mg11^xxii—Mg1—Mg2^xxi	100.74 (7)	Ru3ⁱ—Mg2—Mg11^liii	116.04 (10)
Mg11ⁱⁱ—Mg1—Mg2^xxi	58.314 (19)	Mg2^xxv—Mg2—Mg11^liii	62.38 (8)
Mg11—Mg1—Mg2^xxi	149.79 (7)	Mg3—Mg2—Mg11^liii	132.1 (3)
Mg11^xxiii—Mg1—Mg2ⁱ	58.314 (19)	Mg4^xxvii—Mg2—Mg11^liii	163.2 (3)
Mg11^xxii—Mg1—Mg2ⁱ	58.314 (19)	Mg4^xxvi—Mg2—Mg11^liii	75.8 (2)
Mg11ⁱⁱ—Mg1—Mg2ⁱ	100.74 (7)	Mg2^xxvi—Mg2—Mg11^liii	104.3 (2)
Mg11—Mg1—Mg2ⁱ	149.79 (7)	Mg2^xxvii—Mg2—Mg11^liii	60.88 (9)
Mg2^xxi—Mg1—Mg2ⁱ	51.67 (11)	Ru3ⁱ—Mg2—Mg11^liv	116.04 (10)
Mg13^xxii—Mg1—Mg2^xx	58.314 (19)	Mg2^xxv—Mg2—Mg11^liv	62.38 (8)
Mg13^xxiii—Mg1—Mg2^xx	100.74 (7)	Mg3—Mg2—Mg11^liv	132.1 (3)
Mg13ⁱⁱ—Mg1—Mg2^xx	58.314 (19)	Mg4^xxvii—Mg2—Mg11^liv	75.8 (2)
Mg13—Mg1—Mg2^xx	149.79 (7)	Mg4^xxvi—Mg2—Mg11^liv	163.2 (3)
Mg11^xxiii—Mg1—Mg2^xx	100.74 (7)	Mg2^xxvi—Mg2—Mg11^liv	60.88 (9)
Mg11^xxii—Mg1—Mg2^xx	58.314 (19)	Mg2^xxvii—Mg2—Mg11^liv	104.3 (2)
Mg11ⁱⁱ—Mg1—Mg2^xx	58.314 (19)	Mg11^liii—Mg2—Mg11^liv	94.3 (5)
Mg11—Mg1—Mg2^xx	149.79 (7)	Ru3ⁱ—Mg2—Mg5^xxviii	117.44 (9)
Mg2^xxi—Mg1—Mg2^xx	51.67 (11)	Mg2^xxv—Mg2—Mg5^xxviii	63.81 (7)
Mg2ⁱ—Mg1—Mg2^xx	51.67 (11)	Mg3—Mg2—Mg5^xxviii	84.07 (12)
Mg13^xxii—Mg1—Mg2^xxiv	58.314 (19)	Mg4^xxvii—Mg2—Mg5^xxviii	142.43 (18)
Mg13^xxiii—Mg1—Mg2^xxiv	100.74 (7)	Mg4^xxvi—Mg2—Mg5^xxviii	59.11 (9)
Mg13ⁱⁱ—Mg1—Mg2^xxiv	149.79 (7)	Mg13^liii—Mg2—Mg5^xxviii	67.7 (5)
Mg13—Mg1—Mg2^xxiv	58.314 (19)	Mg13^liv—Mg2—Mg5^xxviii	120.4 (3)
Mg11^xxiii—Mg1—Mg2^xxiv	100.74 (7)	Mg2^xxvi—Mg2—Mg5^xxviii	155.63 (11)
Mg11^xxii—Mg1—Mg2^xxiv	58.314 (19)	Mg2^xxvii—Mg2—Mg5^xxviii	96.55 (10)
Mg11ⁱⁱ—Mg1—Mg2^xxiv	149.79 (7)	Mg11^liii—Mg2—Mg5^xxviii	54.3 (2)
Mg11—Mg1—Mg2^xxiv	58.314 (19)	Mg11^liv—Mg2—Mg5^xxviii	125.80 (16)
Mg2^xxi—Mg1—Mg2^xxiv	145.86 (9)	Mg12^xvii—Mg8—Mg12^xviii	63.5 (4)
Mg2ⁱ—Mg1—Mg2^xxiv	94.94 (3)	Mg12^xvii—Mg8—Ru2	58.51 (14)
Mg2^xx—Mg1—Mg2^xxiv	116.61 (4)	Mg12^xviii—Mg8—Ru2	58.51 (14)
Mg1—Mg11—Mg5^xxxii	131.6 (2)	Mg12^xvii—Mg8—Ru2^xxv	58.51 (14)
Mg1—Mg11—Mg5^xxxiii	131.6 (2)	Mg12^xviii—Mg8—Ru2^xxv	58.51 (14)
Mg5^xxxii—Mg11—Mg5^xxxiii	80.7 (4)	Ru2—Mg8—Ru2^xxv	104.2 (2)
Mg1—Mg11—Mg5^xlv	131.6 (2)	Mg12^xvii—Mg8—Mg3^xxv	101.53 (14)
Mg5^xxxii—Mg11—Mg5^xlv	80.7 (4)	Mg12^xviii—Mg8—Mg3^xxv	101.53 (14)
Mg5^xxxiii—Mg11—Mg5^xlv	80.7 (4)	Ru2—Mg8—Mg3^xxv	155.7 (3)
Mg1—Mg11—Mg2^viii	71.9 (3)	Ru2^xxv—Mg8—Mg3^xxv	51.49 (9)
Mg5^xxxii—Mg11—Mg2^viii	65.57 (12)	Mg12^xvii—Mg8—Mg3	101.53 (14)
Mg5^xxxiii—Mg11—Mg2^viii	144.8 (3)	Mg12^xviii—Mg8—Mg3	101.53 (14)
Mg5^xlv—Mg11—Mg2^viii	102.52 (13)	Ru2—Mg8—Mg3	51.50 (9)
Mg1—Mg11—Mg2^xxx	71.9 (3)	Ru2^xxv—Mg8—Mg3	155.7 (3)
Mg5^xxxii—Mg11—Mg2^xxx	102.52 (13)	Mg3^xxv—Mg8—Mg3	152.8 (3)
Mg5^xxxiii—Mg11—Mg2^xxx	144.8 (3)	Mg12^xvii—Mg8—Mg5^xxviii	157.0 (3)
Mg5^xlv—Mg11—Mg2^xxx	65.57 (12)	Mg12^xviii—Mg8—Mg5^xxviii	93.47 (18)
Mg2^viii—Mg11—Mg2^xxx	58.24 (17)	Ru2—Mg8—Mg5^xxviii	110.75 (5)
Mg1—Mg11—Mg2^xxix	71.9 (3)	Ru2^xxv—Mg8—Mg5^xxviii	110.75 (5)
Mg5^xxxii—Mg11—Mg2^xxix	65.57 (12)	Mg3^xxv—Mg8—Mg5^xxviii	82.21 (12)
Mg5^xxxiii—Mg11—Mg2^xxix	102.52 (13)	Mg3—Mg8—Mg5^xxviii	82.21 (12)
Mg5^xlv—Mg11—Mg2^xxix	144.8 (3)	Mg12^xvii—Mg8—Mg5^xxxix	93.47 (18)
Mg2^viii—Mg11—Mg2^xxix	55.23 (17)	Mg12^xviii—Mg8—Mg5^xxxix	157.0 (3)
Mg2^xxx—Mg11—Mg2^xxix	110.8 (2)	Ru2—Mg8—Mg5^xxxix	110.75 (5)
Mg1—Mg11—Mg2^xxiv	71.9 (3)	Ru2^xxv—Mg8—Mg5^xxxix	110.75 (5)
Mg5^xxxii—Mg11—Mg2^xxiv	102.52 (13)	Mg3^xxv—Mg8—Mg5^xxxix	82.21 (12)
Mg5^xxxiii—Mg11—Mg2^xxiv	65.57 (12)	Mg3—Mg8—Mg5^xxxix	82.21 (12)
Mg5^xlv—Mg11—Mg2^xxiv	144.8 (3)	Mg5^xxviii—Mg8—Mg5^xxxix	109.5 (3)
Mg2^viii—Mg11—Mg2^xxiv	110.8 (2)	Mg12^xvii—Mg8—Mg6^lv	57.54 (14)
Mg2^xxx—Mg11—Mg2^xxiv	143.7 (5)	Mg12^xviii—Mg8—Mg6^lv	106.3 (3)
Mg2^xxix—Mg11—Mg2^xxiv	58.24 (17)	Ru2—Mg8—Mg6^lv	113.00 (18)
Mg1—Mg11—Mg2^ix	71.9 (3)	Ru2^xxv—Mg8—Mg6^lv	54.82 (9)
Mg5^xxxii—Mg11—Mg2^ix	144.8 (3)	Mg3^xxv—Mg8—Mg6^lv	55.95 (7)
Mg5^xxxiii—Mg11—Mg2^ix	65.57 (12)	Mg3—Mg8—Mg6^lv	129.12 (8)
Mg5^xlv—Mg11—Mg2^ix	102.52 (13)	Mg5^xxviii—Mg8—Mg6^lv	136.12 (17)
Mg2^viii—Mg11—Mg2^ix	143.7 (5)	Mg5^xxxix—Mg8—Mg6^lv	56.86 (9)
Mg2^xxx—Mg11—Mg2^ix	110.8 (2)	Mg12^xvii—Mg8—Mg6^lvi	106.3 (3)
Mg2^xxix—Mg11—Mg2^ix	110.8 (2)	Mg12^xviii—Mg8—Mg6^lvi	57.54 (14)
Mg2^xxiv—Mg11—Mg2^ix	55.23 (17)	Ru2—Mg8—Mg6^lvi	113.00 (18)
Mg1—Mg11—Mg2^xxxi	71.9 (3)	Ru2^xxv—Mg8—Mg6^lvi	54.82 (9)
Mg5^xxxii—Mg11—Mg2^xxxi	144.8 (3)	Mg3^xxv—Mg8—Mg6^lvi	55.95 (7)
Mg5^xxxiii—Mg11—Mg2^xxxi	102.52 (13)	Mg3—Mg8—Mg6^lvi	129.12 (8)
Mg5^xlv—Mg11—Mg2^xxxi	65.57 (12)	Mg5^xxviii—Mg8—Mg6^lvi	56.86 (9)
Mg2^viii—Mg11—Mg2^xxxi	110.8 (2)	Mg5^xxxix—Mg8—Mg6^lvi	136.12 (17)
Mg2^xxx—Mg11—Mg2^xxxi	55.23 (17)	Mg6^lv—Mg8—Mg6^lvi	101.77 (15)
Mg2^xxix—Mg11—Mg2^xxxi	143.7 (5)	Mg12^xvii—Mg8—Mg6^xiv	106.3 (3)
Mg2^xxiv—Mg11—Mg2^xxxi	110.8 (2)	Mg12^xviii—Mg8—Mg6^xiv	57.54 (14)
Mg2^ix—Mg11—Mg2^xxxi	58.24 (17)	Ru2—Mg8—Mg6^xiv	54.82 (9)
Mg1—Mg13—Mg2^viii	86.3 (6)	Ru2^xxv—Mg8—Mg6^xiv	113.00 (18)
Mg1—Mg13—Mg2^xxix	86.3 (6)	Mg3^xxv—Mg8—Mg6^xiv	129.12 (8)
Mg2^viii—Mg13—Mg2^xxix	58.26 (16)	Mg3—Mg8—Mg6^xiv	55.95 (7)
Mg1—Mg13—Mg2^xxiv	86.3 (6)	Mg5^xxviii—Mg8—Mg6^xiv	56.86 (9)
Mg2^viii—Mg13—Mg2^xxiv	119.60 (13)	Mg5^xxxix—Mg8—Mg6^xiv	136.12 (17)
Mg2^xxix—Mg13—Mg2^xxiv	61.47 (16)	Mg6^lv—Mg8—Mg6^xiv	162.6 (3)
Mg1—Mg13—Mg2^ix	86.3 (6)	Mg6^lvi—Mg8—Mg6^xiv	75.55 (14)
Mg2^viii—Mg13—Mg2^ix	172.5 (12)	Mg12^xvii—Mg8—Mg6^xv	57.54 (14)
Mg2^xxix—Mg13—Mg2^ix	119.60 (13)	Mg12^xviii—Mg8—Mg6^xv	106.3 (3)
Mg2^xxiv—Mg13—Mg2^ix	58.26 (16)	Ru2—Mg8—Mg6^xv	54.82 (9)
Mg1—Mg13—Mg2^xxx	86.3 (6)	Ru2^xxv—Mg8—Mg6^xv	113.00 (18)
Mg2^viii—Mg13—Mg2^xxx	61.47 (16)	Mg3^xxv—Mg8—Mg6^xv	129.12 (8)
Mg2^xxix—Mg13—Mg2^xxx	119.60 (13)	Mg3—Mg8—Mg6^xv	55.95 (7)
Mg2^xxiv—Mg13—Mg2^xxx	172.5 (12)	Mg5^xxviii—Mg8—Mg6^xv	136.12 (17)
Mg2^ix—Mg13—Mg2^xxx	119.60 (13)	Mg5^xxxix—Mg8—Mg6^xv	56.86 (9)
Mg1—Mg13—Mg2^xxxi	86.3 (6)	Mg6^lv—Mg8—Mg6^xv	75.55 (14)
Mg2^viii—Mg13—Mg2^xxxi	119.60 (13)	Mg6^lvi—Mg8—Mg6^xv	162.6 (3)
Mg2^xxix—Mg13—Mg2^xxxi	172.5 (12)	Mg6^xiv—Mg8—Mg6^xv	101.77 (15)
Mg2^xxiv—Mg13—Mg2^xxxi	119.60 (13)	Ru2^lvii—Mg12—Ru2^lviii	110.90 (14)
Mg2^ix—Mg13—Mg2^xxxi	61.47 (16)	Ru2^lvii—Mg12—Ru2^lix	110.90 (14)
Mg2^xxx—Mg13—Mg2^xxxi	58.26 (16)	Ru2^lviii—Mg12—Ru2^lix	110.90 (14)
Mg1—Mg13—Mg13ⁱⁱ	35.263 (2)	Ru2^lvii—Mg12—Mg8^lx	62.89 (4)
Mg2^viii—Mg13—Mg13ⁱⁱ	87.5 (5)	Ru2^lviii—Mg12—Mg8^lx	62.89 (4)
Mg2^xxix—Mg13—Mg13ⁱⁱ	116.3 (6)	Ru2^lix—Mg12—Mg8^lx	165.5 (3)
Mg2^xxiv—Mg13—Mg13ⁱⁱ	116.3 (6)	Ru2^lvii—Mg12—Mg8^lxi	165.5 (3)
Mg2^ix—Mg13—Mg13ⁱⁱ	87.5 (5)	Ru2^lviii—Mg12—Mg8^lxi	62.89 (4)
Mg2^xxx—Mg13—Mg13ⁱⁱ	56.3 (6)	Ru2^lix—Mg12—Mg8^lxi	62.89 (4)
Mg2^xxxi—Mg13—Mg13ⁱⁱ	56.3 (6)	Mg8^lx—Mg12—Mg8^lxi	119.63 (4)
Mg1—Mg13—Mg13^xxii	35.263 (1)	Ru2^lvii—Mg12—Mg8^lix	62.89 (4)
Mg2^viii—Mg13—Mg13^xxii	116.3 (6)	Ru2^lviii—Mg12—Mg8^lix	165.5 (3)
Mg2^xxix—Mg13—Mg13^xxii	87.5 (5)	Ru2^lix—Mg12—Mg8^lix	62.89 (4)
Mg2^xxiv—Mg13—Mg13^xxii	56.3 (6)	Mg8^lx—Mg12—Mg8^lix	119.63 (4)
Mg2^ix—Mg13—Mg13^xxii	56.3 (6)	Mg8^lxi—Mg12—Mg8^lix	119.63 (4)
Mg2^xxx—Mg13—Mg13^xxii	116.3 (6)	Ru2^lvii—Mg12—Mg6^xliv	58.45 (9)
Mg2^xxxi—Mg13—Mg13^xxii	87.5 (5)	Ru2^lviii—Mg12—Mg6^xliv	124.22 (10)
Mg1—Mg13—Mg13^xxiii	35.263 (2)	Ru2^lix—Mg12—Mg6^xliv	124.22 (10)
Mg2^viii—Mg13—Mg13^xxiii	56.3 (6)	Mg8^lx—Mg12—Mg6^xliv	65.20 (10)
Mg2^xxix—Mg13—Mg13^xxiii	56.3 (6)	Mg8^lxi—Mg12—Mg6^xliv	136.1 (3)
Mg2^xxiv—Mg13—Mg13^xxiii	87.5 (5)	Mg8^lix—Mg12—Mg6^xliv	65.20 (10)
Mg2^ix—Mg13—Mg13^xxiii	116.3 (6)	Ru2^lvii—Mg12—Mg6^xliii	124.22 (10)
Mg2^xxx—Mg13—Mg13^xxiii	87.5 (5)	Ru2^lviii—Mg12—Mg6^xliii	124.22 (10)
Mg2^xxxi—Mg13—Mg13^xxiii	116.3 (6)	Ru2^lix—Mg12—Mg6^xliii	58.45 (9)
Mg1—Mg13—Mg5^xxxii	141.3 (3)	Mg8^lx—Mg12—Mg6^xliii	136.1 (3)
Mg2^viii—Mg13—Mg5^xxxii	60.3 (3)	Mg8^lxi—Mg12—Mg6^xliii	65.20 (10)
Mg2^xxix—Mg13—Mg5^xxxii	60.3 (3)	Mg8^lix—Mg12—Mg6^xliii	65.20 (10)
Mg2^xxiv—Mg13—Mg5^xxxii	93.4 (5)	Mg6^xliv—Mg12—Mg6^xliii	82.5 (2)
Mg2^ix—Mg13—Mg5^xxxii	125.9 (8)	Ru2^lvii—Mg12—Mg6ⁱⁱ	124.22 (10)
Mg2^xxx—Mg13—Mg5^xxxii	93.4 (5)	Ru2^lviii—Mg12—Mg6ⁱⁱ	58.45 (9)
Mg2^xxxi—Mg13—Mg5^xxxii	125.9 (8)	Ru2^lix—Mg12—Mg6ⁱⁱ	124.22 (10)
Mg13ⁱⁱ—Mg13—Mg5^xxxii	144.83 (16)	Mg8^lx—Mg12—Mg6ⁱⁱ	65.20 (10)
Mg13^xxii—Mg13—Mg5^xxxii	144.83 (16)	Mg8^lxi—Mg12—Mg6ⁱⁱ	65.20 (10)
Mg13^xxiii—Mg13—Mg5^xxxii	106.0 (3)	Mg8^lix—Mg12—Mg6ⁱⁱ	136.1 (3)
Mg1—Mg13—Mg5^xxxiii	141.3 (3)	Mg6^xliv—Mg12—Mg6ⁱⁱ	82.5 (2)
Mg2^viii—Mg13—Mg5^xxxiii	125.9 (8)	Mg6^xliii—Mg12—Mg6ⁱⁱ	82.5 (2)
Mg2^xxix—Mg13—Mg5^xxxiii	93.4 (5)	Ru2^lvii—Mg12—Mg12^xlvi	107.26 (15)
Mg2^xxiv—Mg13—Mg5^xxxiii	60.3 (3)	Ru2^lviii—Mg12—Mg12^xlvi	58.21 (12)
Mg2^ix—Mg13—Mg5^xxxiii	60.3 (3)	Ru2^lix—Mg12—Mg12^xlvi	58.21 (12)
Mg2^xxx—Mg13—Mg5^xxxiii	125.9 (8)	Mg8^lx—Mg12—Mg12^xlvi	109.76 (15)
Mg2^xxxi—Mg13—Mg5^xxxiii	93.4 (5)	Mg8^lxi—Mg12—Mg12^xlvi	58.24 (18)
Mg13ⁱⁱ—Mg13—Mg5^xxxiii	144.83 (16)	Mg8^lix—Mg12—Mg12^xlvi	109.76 (15)
Mg13^xxii—Mg13—Mg5^xxxiii	106.0 (3)	Mg6^xliv—Mg12—Mg12^xlvi	165.71 (14)
Mg13^xxiii—Mg13—Mg5^xxxiii	144.83 (16)	Mg6^xliii—Mg12—Mg12^xlvi	108.06 (12)
Mg5^xxxii—Mg13—Mg5^xxxiii	65.6 (5)	Mg6ⁱⁱ—Mg12—Mg12^xlvi	108.06 (12)
Ru3ⁱ—Mg7—Ru3	173.4 (2)	Ru2^lvii—Mg12—Mg12^xlvii	58.21 (12)
Ru3ⁱ—Mg7—Mg4ⁱ	127.1 (2)	Ru2^lviii—Mg12—Mg12^xlvii	107.26 (15)
Ru3—Mg7—Mg4ⁱ	59.49 (11)	Ru2^lix—Mg12—Mg12^xlvii	58.21 (12)
Ru3ⁱ—Mg7—Mg4	59.50 (11)	Mg8^lx—Mg12—Mg12^xlvii	109.76 (15)
Ru3—Mg7—Mg4	127.1 (2)	Mg8^lxi—Mg12—Mg12^xlvii	109.76 (15)
Mg4ⁱ—Mg7—Mg4	67.6 (2)	Mg8^lix—Mg12—Mg12^xlvii	58.24 (18)
Ru3ⁱ—Mg7—Mg3^xx	122.37 (9)	Mg6^xliv—Mg12—Mg12^xlvii	108.06 (12)
Ru3—Mg7—Mg3^xx	59.46 (8)	Mg6^xliii—Mg12—Mg12^xlvii	108.06 (12)
Mg4ⁱ—Mg7—Mg3^xx	60.76 (9)	Mg6ⁱⁱ—Mg12—Mg12^xlvii	165.71 (14)
Mg4—Mg7—Mg3^xx	95.32 (14)	Mg12^xlvi—Mg12—Mg12^xlvii	59.998 (1)
Ru3ⁱ—Mg7—Mg3^xxi	122.37 (9)	Ru2^lvii—Mg12—Mg12^xlviii	58.21 (12)
Ru3—Mg7—Mg3^xxi	59.46 (8)	Ru2^lviii—Mg12—Mg12^xlviii	58.21 (12)
Mg4ⁱ—Mg7—Mg3^xxi	60.76 (9)	Ru2^lix—Mg12—Mg12^xlviii	107.26 (15)
Mg4—Mg7—Mg3^xxi	95.32 (14)	Mg8^lx—Mg12—Mg12^xlviii	58.24 (18)
Mg3^xx—Mg7—Mg3^xxi	109.89 (17)	Mg8^lxi—Mg12—Mg12^xlviii	109.76 (15)
Ru3ⁱ—Mg7—Mg3^xxvi	59.46 (8)	Mg8^lix—Mg12—Mg12^xlviii	109.76 (15)
Ru3—Mg7—Mg3^xxvi	122.37 (8)	Mg6^xliv—Mg12—Mg12^xlviii	108.06 (12)
Mg4ⁱ—Mg7—Mg3^xxvi	95.32 (14)	Mg6^xliii—Mg12—Mg12^xlviii	165.71 (14)
Mg4—Mg7—Mg3^xxvi	60.76 (9)	Mg6ⁱⁱ—Mg12—Mg12^xlviii	108.06 (12)
Mg3^xx—Mg7—Mg3^xxvi	152.5 (2)	Mg12^xlvi—Mg12—Mg12^xlviii	59.998 (1)
Mg3^xxi—Mg7—Mg3^xxvi	63.02 (15)	Mg12^xlvii—Mg12—Mg12^xlviii	59.998 (1)
Ru3ⁱ—Mg7—Mg3^xxvii	59.46 (8)	Mg9ⁱⁱⁱ—Mg5—Mg11ⁱⁱⁱ	80.5 (3)
Ru3—Mg7—Mg3^xxvii	122.37 (9)	Mg9ⁱⁱⁱ—Mg5—Mg10ⁱⁱ	60.5 (3)
Mg4ⁱ—Mg7—Mg3^xxvii	95.32 (14)	Mg11ⁱⁱⁱ—Mg5—Mg10ⁱⁱ	141.1 (3)
Mg4—Mg7—Mg3^xxvii	60.76 (9)	Mg9ⁱⁱⁱ—Mg5—Mg6^xxxv	104.3 (2)
Mg3^xx—Mg7—Mg3^xxvii	63.02 (15)	Mg11ⁱⁱⁱ—Mg5—Mg6^xxxv	138.97 (10)
Mg3^xxi—Mg7—Mg3^xxvii	152.5 (2)	Mg10ⁱⁱ—Mg5—Mg6^xxxv	59.41 (15)
Mg3^xxvi—Mg7—Mg3^xxvii	109.89 (17)	Mg9ⁱⁱⁱ—Mg5—Mg6^xxxiv	104.3 (2)
Ru3ⁱ—Mg7—Mg7^xxvi	57.34 (10)	Mg11ⁱⁱⁱ—Mg5—Mg6^xxxiv	138.97 (10)
Ru3—Mg7—Mg7^xxvi	117.31 (10)	Mg10ⁱⁱ—Mg5—Mg6^xxxiv	59.41 (15)
Mg4ⁱ—Mg7—Mg7^xxvi	149.967 (5)	Mg6^xxxv—Mg5—Mg6^xxxiv	80.3 (2)
Mg4—Mg7—Mg7^xxvi	108.04 (9)	Mg9ⁱⁱⁱ—Mg5—Mg4^x	89.90 (13)
Mg3^xx—Mg7—Mg7^xxvi	91.17 (10)	Mg11ⁱⁱⁱ—Mg5—Mg4^x	76.82 (12)
Mg3^xxi—Mg7—Mg7^xxvi	147.03 (11)	Mg10ⁱⁱ—Mg5—Mg4^x	101.54 (12)
Mg3^xxvi—Mg7—Mg7^xxvi	108.44 (9)	Mg6^xxxv—Mg5—Mg4^x	62.62 (11)
Mg3^xxvii—Mg7—Mg7^xxvi	59.85 (11)	Mg6^xxxiv—Mg5—Mg4^x	142.63 (19)
Ru3ⁱ—Mg7—Mg7^xxxviii	57.34 (10)	Mg9ⁱⁱⁱ—Mg5—Mg4^xi	89.90 (13)
Ru3—Mg7—Mg7^xxxviii	117.31 (10)	Mg11ⁱⁱⁱ—Mg5—Mg4^xi	76.82 (12)
Mg4ⁱ—Mg7—Mg7^xxxviii	149.967 (5)	Mg10ⁱⁱ—Mg5—Mg4^xi	101.54 (12)
Mg4—Mg7—Mg7^xxxviii	108.04 (9)	Mg6^xxxv—Mg5—Mg4^xi	142.63 (19)
Mg3^xx—Mg7—Mg7^xxxviii	147.03 (11)	Mg6^xxxiv—Mg5—Mg4^xi	62.62 (11)
Mg3^xxi—Mg7—Mg7^xxxviii	91.17 (10)	Mg4^x—Mg5—Mg4^xi	153.3 (2)
Mg3^xxvi—Mg7—Mg7^xxxviii	59.85 (11)	Mg9ⁱⁱⁱ—Mg5—Mg8^xxxix	160.6 (3)
Mg3^xxvii—Mg7—Mg7^xxxviii	108.44 (9)	Mg11ⁱⁱⁱ—Mg5—Mg8^xxxix	118.9 (3)
Mg7^xxvi—Mg7—Mg7^xxxviii	60.000 (1)	Mg10ⁱⁱ—Mg5—Mg8^xxxix	100.1 (2)
Ru3ⁱ—Mg7—Mg7^xiii	117.31 (10)	Mg6^xxxv—Mg5—Mg8^xxxix	61.79 (16)
Ru3—Mg7—Mg7^xiii	57.34 (10)	Mg6^xxxiv—Mg5—Mg8^xxxix	61.79 (16)
Mg4ⁱ—Mg7—Mg7^xiii	108.04 (9)	Mg4^x—Mg5—Mg8^xxxix	94.49 (11)
Mg4—Mg7—Mg7^xiii	149.967 (5)	Mg4^xi—Mg5—Mg8^xxxix	94.49 (11)
Mg3^xx—Mg7—Mg7^xiii	59.85 (11)	Mg9ⁱⁱⁱ—Mg5—Ru1^xi	53.82 (11)
Mg3^xxi—Mg7—Mg7^xiii	108.44 (9)	Mg11ⁱⁱⁱ—Mg5—Ru1^xi	102.8 (2)
Mg3^xxvi—Mg7—Mg7^xiii	147.03 (11)	Mg10ⁱⁱ—Mg5—Ru1^xi	55.15 (10)
Mg3^xxvii—Mg7—Mg7^xiii	91.17 (10)	Mg6^xxxv—Mg5—Ru1^xi	112.88 (16)
Mg7^xxvi—Mg7—Mg7^xiii	60.0	Mg6^xxxiv—Mg5—Ru1^xi	55.59 (10)
Mg7^xxxviii—Mg7—Mg7^xiii	90.0	Mg4^x—Mg5—Ru1^xi	142.50 (18)
Ru3ⁱ—Mg7—Mg7^xii	117.31 (10)	Mg4^xi—Mg5—Ru1^xi	49.73 (9)
Ru3—Mg7—Mg7^xii	57.34 (10)	Mg8^xxxix—Mg5—Ru1^xi	116.72 (13)
Mg4ⁱ—Mg7—Mg7^xii	108.04 (9)	Mg9ⁱⁱⁱ—Mg5—Ru1^x	53.82 (11)
Mg4—Mg7—Mg7^xii	149.967 (5)	Mg11ⁱⁱⁱ—Mg5—Ru1^x	102.8 (2)
Mg3^xx—Mg7—Mg7^xii	108.44 (9)	Mg10ⁱⁱ—Mg5—Ru1^x	55.15 (10)
Mg3^xxi—Mg7—Mg7^xii	59.85 (11)	Mg6^xxxv—Mg5—Ru1^x	55.59 (10)
Mg3^xxvi—Mg7—Mg7^xii	91.17 (10)	Mg6^xxxiv—Mg5—Ru1^x	112.88 (16)
Mg3^xxvii—Mg7—Mg7^xii	147.03 (11)	Mg4^x—Mg5—Ru1^x	49.73 (9)
Mg7^xxvi—Mg7—Mg7^xii	90.0	Mg4^xi—Mg5—Ru1^x	142.50 (18)
Mg7^xxxviii—Mg7—Mg7^xii	60.0	Mg8^xxxix—Mg5—Ru1^x	116.72 (13)
Mg7^xiii—Mg7—Mg7^xii	60.0	Ru1^xi—Mg5—Ru1^x	95.43 (15)
Ru2—Mg3—Ru3ⁱ	167.54 (17)	Mg9ⁱⁱⁱ—Mg5—Mg2^xxxix	130.9 (2)
Ru2—Mg3—Mg2	133.81 (17)	Mg11ⁱⁱⁱ—Mg5—Mg2^xxxix	60.1 (2)
Ru3ⁱ—Mg3—Mg2	58.66 (11)	Mg10ⁱⁱ—Mg5—Mg2^xxxix	148.93 (15)
Ru2—Mg3—Mg6^xiv	61.18 (11)	Mg6^xxxv—Mg5—Mg2^xxxix	124.6 (2)
Ru3ⁱ—Mg3—Mg6^xiv	121.85 (11)	Mg6^xxxiv—Mg5—Mg2^xxxix	89.94 (13)
Mg2—Mg3—Mg6^xiv	98.22 (11)	Mg4^x—Mg5—Mg2^xxxix	106.79 (16)
Ru2—Mg3—Mg6^xv	61.18 (11)	Mg4^xi—Mg5—Mg2^xxxix	55.24 (12)
Ru3ⁱ—Mg3—Mg6^xv	121.85 (11)	Mg8^xxxix—Mg5—Mg2^xxxix	65.62 (15)
Mg2—Mg3—Mg6^xv	98.22 (11)	Ru1^xi—Mg5—Mg2^xxxix	104.94 (7)
Mg6^xiv—Mg3—Mg6^xv	113.3 (2)	Ru1^x—Mg5—Mg2^xxxix	155.64 (14)
Ru2—Mg3—Mg7^xxxviii	113.09 (12)	Mg9ⁱⁱⁱ—Mg5—Mg2^xxviii	130.9 (2)
Ru3ⁱ—Mg3—Mg7^xxxviii	56.68 (8)	Mg11ⁱⁱⁱ—Mg5—Mg2^xxviii	60.1 (2)
Mg2—Mg3—Mg7^xxxviii	106.54 (14)	Mg10ⁱⁱ—Mg5—Mg2^xxviii	148.93 (15)
Mg6^xiv—Mg3—Mg7^xxxviii	144.32 (16)	Mg6^xxxv—Mg5—Mg2^xxviii	89.94 (13)
Mg6^xv—Mg3—Mg7^xxxviii	88.45 (13)	Mg6^xxxiv—Mg5—Mg2^xxviii	124.6 (2)
Ru2—Mg3—Mg7^xxvi	113.09 (12)	Mg4^x—Mg5—Mg2^xxviii	55.24 (12)
Ru3ⁱ—Mg3—Mg7^xxvi	56.68 (8)	Mg4^xi—Mg5—Mg2^xxviii	106.79 (16)
Mg2—Mg3—Mg7^xxvi	106.54 (14)	Mg8^xxxix—Mg5—Mg2^xxviii	65.62 (15)
Mg6^xiv—Mg3—Mg7^xxvi	88.45 (13)	Ru1^xi—Mg5—Mg2^xxviii	155.64 (14)
Mg6^xv—Mg3—Mg7^xxvi	144.32 (16)	Ru1^x—Mg5—Mg2^xxviii	104.94 (7)
Mg7^xxxviii—Mg3—Mg7^xxvi	60.3 (2)	Mg2^xxxix—Mg5—Mg2^xxviii	52.39 (15)
Ru2—Mg3—Mg4^xxvi	125.14 (12)	Ru1^xlv—Mg9—Ru1^xxxii	119.34 (7)
Ru3ⁱ—Mg3—Mg4^xxvi	58.03 (11)	Ru1^xlv—Mg9—Ru1^xxxiii	119.34 (7)
Mg2—Mg3—Mg4^xxvi	59.54 (11)	Ru1^xxxii—Mg9—Ru1^xxxiii	119.34 (7)
Mg6^xiv—Mg3—Mg4^xxvi	64.29 (12)	Ru1^xlv—Mg9—Mg5^xxxii	70.34 (11)
Mg6^xv—Mg3—Mg4^xxvi	155.39 (16)	Ru1^xxxii—Mg9—Mg5^xxxii	145.8 (5)
Mg7^xxxviii—Mg3—Mg4^xxvi	107.10 (16)	Ru1^xxxiii—Mg9—Mg5^xxxii	70.34 (11)
Mg7^xxvi—Mg3—Mg4^xxvi	59.10 (13)	Ru1^xlv—Mg9—Mg5^xlv	145.8 (5)
Ru2—Mg3—Mg4^xxvii	125.14 (12)	Ru1^xxxii—Mg9—Mg5^xlv	70.34 (11)
Ru3ⁱ—Mg3—Mg4^xxvii	58.03 (11)	Ru1^xxxiii—Mg9—Mg5^xlv	70.34 (11)
Mg2—Mg3—Mg4^xxvii	59.54 (11)	Mg5^xxxii—Mg9—Mg5^xlv	84.7 (3)
Mg6^xiv—Mg3—Mg4^xxvii	155.39 (16)	Ru1^xlv—Mg9—Mg5^xxxiii	70.34 (11)
Mg6^xv—Mg3—Mg4^xxvii	64.29 (12)	Ru1^xxxii—Mg9—Mg5^xxxiii	70.34 (11)
Mg7^xxxviii—Mg3—Mg4^xxvii	59.10 (13)	Ru1^xxxiii—Mg9—Mg5^xxxiii	145.8 (5)
Mg7^xxvi—Mg3—Mg4^xxvii	107.10 (16)	Mg5^xxxii—Mg9—Mg5^xxxiii	84.7 (3)
Mg4^xxvi—Mg3—Mg4^xxvii	107.0 (2)	Mg5^xlv—Mg9—Mg5^xxxiii	84.7 (3)
Ru2—Mg3—Mg3^xii	54.77 (7)	Ru1^xlv—Mg9—Mg10^xli	151.1 (5)
Ru3ⁱ—Mg3—Mg3^xii	115.08 (7)	Ru1^xxxii—Mg9—Mg10^xli	60.80 (8)
Mg2—Mg3—Mg3^xii	149.937 (7)	Ru1^xxxiii—Mg9—Mg10^xli	60.80 (8)
Mg6^xiv—Mg3—Mg3^xii	108.08 (9)	Mg5^xxxii—Mg9—Mg10^xli	127.78 (12)
Mg6^xv—Mg3—Mg3^xii	58.32 (8)	Mg5^xlv—Mg9—Mg10^xli	63.15 (15)
Mg7^xxxviii—Mg3—Mg3^xii	58.49 (8)	Mg5^xxxiii—Mg9—Mg10^xli	127.78 (12)
Mg7^xxvi—Mg3—Mg3^xii	88.83 (10)	Ru1^xlv—Mg9—Mg10^xlii	60.80 (8)
Mg4^xxvi—Mg3—Mg3^xii	146.21 (10)	Ru1^xxxii—Mg9—Mg10^xlii	151.1 (5)
Mg4^xxvii—Mg3—Mg3^xii	91.56 (11)	Ru1^xxxiii—Mg9—Mg10^xlii	60.80 (8)
Ru2—Mg3—Mg3^xiii	54.77 (7)	Mg5^xxxii—Mg9—Mg10^xlii	63.15 (15)
Ru3ⁱ—Mg3—Mg3^xiii	115.08 (7)	Mg5^xlv—Mg9—Mg10^xlii	127.78 (12)
Mg2—Mg3—Mg3^xiii	149.937 (7)	Mg5^xxxiii—Mg9—Mg10^xlii	127.78 (12)
Mg6^xiv—Mg3—Mg3^xiii	58.32 (8)	Mg10^xli—Mg9—Mg10^xlii	104.3 (3)
Mg6^xv—Mg3—Mg3^xiii	108.08 (9)	Ru1^xlv—Mg9—Mg10^xl	60.80 (8)
Mg7^xxxviii—Mg3—Mg3^xiii	88.83 (10)	Ru1^xxxii—Mg9—Mg10^xl	60.80 (8)
Mg7^xxvi—Mg3—Mg3^xiii	58.49 (8)	Ru1^xxxiii—Mg9—Mg10^xl	151.1 (5)
Mg4^xxvi—Mg3—Mg3^xiii	91.56 (11)	Mg5^xxxii—Mg9—Mg10^xl	127.78 (12)
Mg4^xxvii—Mg3—Mg3^xiii	146.21 (10)	Mg5^xlv—Mg9—Mg10^xl	127.78 (12)
Mg3^xii—Mg3—Mg3^xiii	60.0	Mg5^xxxiii—Mg9—Mg10^xl	63.15 (15)
Ru2—Mg3—Mg8	63.44 (18)	Mg10^xli—Mg9—Mg10^xl	104.3 (3)
Ru3ⁱ—Mg3—Mg8	129.0 (2)	Mg10^xlii—Mg9—Mg10^xl	104.3 (3)
Mg2—Mg3—Mg8	70.37 (19)	Ru1^xlv—Mg9—Mg9^xl	102.8 (2)
Mg6^xiv—Mg3—Mg8	63.14 (11)	Ru1^xxxii—Mg9—Mg9^xl	102.8 (2)
Mg6^xv—Mg3—Mg8	63.14 (11)	Ru1^xxxiii—Mg9—Mg9^xl	50.1 (3)
Mg7^xxxviii—Mg3—Mg8	149.85 (11)	Mg5^xxxii—Mg9—Mg9^xl	106.76 (18)
Mg7^xxvi—Mg3—Mg8	149.85 (11)	Mg5^xlv—Mg9—Mg9^xl	106.76 (18)
Mg4^xxvi—Mg3—Mg8	97.05 (14)	Mg5^xxxiii—Mg9—Mg9^xl	164.2 (2)
Mg4^xxvii—Mg3—Mg8	97.05 (14)	Mg10^xli—Mg9—Mg9^xl	53.24 (18)
Mg3^xii—Mg3—Mg8	108.65 (15)	Mg10^xlii—Mg9—Mg9^xl	53.24 (18)
Mg3^xiii—Mg3—Mg8	108.65 (15)	Mg10^xl—Mg9—Mg9^xl	101.0 (2)
Ru2^xlix—Mg6—Ru1^vii	159.90 (16)	Ru1^xlv—Mg9—Mg9^xli	50.1 (3)
Ru2^xlix—Mg6—Mg3^xxxvii	54.86 (10)	Ru1^xxxii—Mg9—Mg9^xli	102.8 (2)
Ru1^vii—Mg6—Mg3^xxxvii	108.97 (14)	Ru1^xxxiii—Mg9—Mg9^xli	102.8 (2)
Ru2^xlix—Mg6—Mg3^xxxvi	54.86 (10)	Mg5^xxxii—Mg9—Mg9^xli	106.76 (18)
Ru1^vii—Mg6—Mg3^xxxvi	108.97 (14)	Mg5^xlv—Mg9—Mg9^xli	164.2 (2)
Mg3^xxxvii—Mg6—Mg3^xxxvi	63.35 (17)	Mg5^xxxiii—Mg9—Mg9^xli	106.76 (18)
Ru2^xlix—Mg6—Mg12ⁱⁱ	60.57 (15)	Mg10^xli—Mg9—Mg9^xli	101.0 (2)
Ru1^vii—Mg6—Mg12ⁱⁱ	139.53 (18)	Mg10^xlii—Mg9—Mg9^xli	53.24 (18)
Mg3^xxxvii—Mg6—Mg12ⁱⁱ	105.26 (17)	Mg10^xl—Mg9—Mg9^xli	53.24 (18)
Mg3^xxxvi—Mg6—Mg12ⁱⁱ	105.26 (17)	Mg9^xl—Mg9—Mg9^xli	59.998 (1)
Ru2^xlix—Mg6—Mg10ⁱⁱ	141.9 (2)	Ru1^xlv—Mg9—Mg9^xlii	102.8 (2)
Ru1^vii—Mg6—Mg10ⁱⁱ	58.18 (15)	Ru1^xxxii—Mg9—Mg9^xlii	50.1 (3)
Mg3^xxxvii—Mg6—Mg10ⁱⁱ	147.11 (10)	Ru1^xxxiii—Mg9—Mg9^xlii	102.8 (2)
Mg3^xxxvi—Mg6—Mg10ⁱⁱ	147.11 (10)	Mg5^xxxii—Mg9—Mg9^xlii	164.2 (2)
Mg12ⁱⁱ—Mg6—Mg10ⁱⁱ	81.4 (2)	Mg5^xlv—Mg9—Mg9^xlii	106.76 (18)
Ru2^xlix—Mg6—Mg5^xxxiv	120.91 (13)	Mg5^xxxiii—Mg9—Mg9^xlii	106.76 (18)
Ru1^vii—Mg6—Mg5^xxxiv	64.76 (13)	Mg10^xli—Mg9—Mg9^xlii	53.24 (18)
Mg3^xxxvii—Mg6—Mg5^xxxiv	147.16 (15)	Mg10^xlii—Mg9—Mg9^xlii	101.0 (2)
Mg3^xxxvi—Mg6—Mg5^xxxiv	87.45 (12)	Mg10^xl—Mg9—Mg9^xlii	53.24 (18)
Mg12ⁱⁱ—Mg6—Mg5^xxxiv	96.34 (13)	Mg9^xl—Mg9—Mg9^xlii	59.998 (1)
Mg10ⁱⁱ—Mg6—Mg5^xxxiv	59.68 (12)	Mg9^xli—Mg9—Mg9^xlii	59.998 (1)

Symmetry codes: (i) −x+1/2, −y+1/2, z; (ii) −x+1, −y+1, z; (iii) x−1/2, y−1/2, z; (iv) −x+1, y−1/2, −z+3/2; (v) x−1/2, −y+1, −z+3/2; (vi) x, −y+1/2, −z+3/2; (vii) −x+1/2, y, −z+3/2; (viii) −y+1/2, −z+1, x+1/2; (ix) −z+1, −x+1/2, y+1/2; (x) y, z−1/2, x+1/2; (xi) z−1/2, x, y+1/2; (xii) y, z, x; (xiii) z, x, y; (xiv) y, z−1, x; (xv) z−1, x, y; (xvi) x, y, z−1; (xvii) x−1, −y+1, −z+1; (xviii) −x+1, y−1, −z+1; (xix) −x+1, −y+1, z−1; (xx) −y+1/2, z, −x+1/2; (xxi) z, −x+1/2, −y+1/2; (xxii) x, −y+1, −z+1; (xxiii) −x+1, y, −z+1; (xxiv) −z+1, x+1/2, −y+1/2; (xxv) −x, −y, z; (xxvi) y, −z+1/2, −x+1/2; (xxvii) −z+1/2, x, −y+1/2; (xxviii) x, −y, −z+1; (xxix) y+1/2, −z+1, −x+1/2; (xxx) −x+1/2, y+1/2, −z+1; (xxxi) x+1/2, −y+1/2, −z+1; (xxxii) y+1/2, z, x+1/2; (xxxiii) z, x+1/2, y+1/2; (xxxiv) −z+1, x, −y+1; (xxxv) y, −z+1, −x+1; (xxxvi) z, x, y+1; (xxxvii) y, z, x+1; (xxxviii) −z+1/2, −x+1/2, y; (xxxix) −x, y, −z+1; (xl) x, −y+3/2, −z+3/2; (xli) −x+3/2, −y+3/2, z; (xlii) −x+3/2, y, −z+3/2; (xliii) −y+1, z, −x+1; (xliv) z, −x+1, −y+1; (xlv) x+1/2, y+1/2, z; (xlvi) x, −y+2, −z+2; (xlvii) −x+2, −y+2, z; (xlviii) −x+2, y, −z+2; (xlix) x, y, z+1; (l) y+1/2, −z+3/2, −x+1; (li) −x+1, y+1/2, −z+3/2; (lii) −z+3/2, −x+1, y+1/2; (liii) x−1/2, −y+1/2, −z+1; (liv) −x+1/2, y−1/2, −z+1; (lv) −y, −z+1, x; (lvi) −z+1, −x, y; (lvii) x+1, −y+1, −z+1; (lviii) −x+1, −y+1, z+1; (lix) −x+1, y+1, −z+1; (lx) y+1, −z+1, −x+1; (lxi) −z+1, −x+1, y+1.

Acknowledgements

We are indebted to Yibo Liu for useful discussions.

Funding information

Funding for this research was provided by: The National Natural Science Foundation of China (grant No. 52173231 ; grant No. U23A20537); The Innovation Ability Promotion Project of Hebei supported by Hebei Key Lab for Optimizing Metal Product Technology and Performance (grant No. 22567609H).

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