# Supplementary Material (ESI) for Dalton Transactions
# This journal is (c) The Royal Society of Chemistry 2010
data_global

_journal_coden_Cambridge         222

loop_
_publ_author_name
'J Corbett'
'Shalabh Gupta'

_publ_contact_author_name        'J Corbett'
_publ_contact_author_email       JCORBETT@IASTATE.EDU

_publ_section_title              
;
Novel Condensation of Au-centered Trigonal Prisms in
Rare-Earth-Metal-Rich Tellurides: Er7Au2Te2 and Lu7Au2Te2.
;

# Attachment 'Er7Au2Te2.cif'

data_Er7Au2Te2
_database_code_depnum_ccdc_archive 'CCDC 761283'
#TrackingRef 'Er7Au2Te2.cif'

_audit_creation_method           SHELXL-97
_chemical_name_systematic        
;
?
;
_chemical_name_common            ?
_chemical_melting_point          ?
_chemical_formula_moiety         'Au2 Er7 Te2'
_chemical_formula_sum            'Au2 Er7 Te2'
_chemical_formula_weight         1819.95

loop_
_atom_type_symbol
_atom_type_description
_atom_type_scat_dispersion_real
_atom_type_scat_dispersion_imag
_atom_type_scat_source
Te Te -0.5308 1.6751 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4'
Er Er -0.2586 4.9576 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4'
Au Au -2.0133 8.8022 'International Tables Vol C Tables 4.2.6.8 and 6.1.1.4'

_symmetry_cell_setting           Monoclinic
_symmetry_space_group_name_H-M   C2/m

loop_
_symmetry_equiv_pos_as_xyz
'x, y, z'
'-x, y, -z'
'x+1/2, y+1/2, z'
'-x+1/2, y+1/2, -z'
'-x, -y, -z'
'x, -y, z'
'-x+1/2, -y+1/2, -z'
'x+1/2, -y+1/2, z'

_cell_length_a                   17.8310(9)
_cell_length_b                   3.9819(5)
_cell_length_c                   16.9089(9)
_cell_angle_alpha                90.00
_cell_angle_beta                 104.361(4)
_cell_angle_gamma                90.00
_cell_volume                     1163.1(5)
_cell_formula_units_Z            4
_cell_measurement_temperature    293(2)
_cell_measurement_reflns_used    ?
_cell_measurement_theta_min      ?
_cell_measurement_theta_max      ?

_exptl_crystal_description       Irregular
_exptl_crystal_colour            Black
_exptl_crystal_size_max          0.10
_exptl_crystal_size_mid          0.09
_exptl_crystal_size_min          0.09
_exptl_crystal_density_meas      'not measured'
_exptl_crystal_density_diffrn    10.394
_exptl_crystal_density_method    'not measured'
_exptl_crystal_F_000             2952
_exptl_absorpt_coefficient_mu    79.865
_exptl_absorpt_correction_type   Empirical
_exptl_absorpt_correction_T_min  0.005
_exptl_absorpt_correction_T_max  0.008
_exptl_absorpt_process_details   SADABS

_exptl_special_details           
;
?
;

_diffrn_ambient_temperature      293(2)
_diffrn_radiation_wavelength     0.71073
_diffrn_radiation_type           MoK\a
_diffrn_radiation_source         'fine-focus sealed tube'
_diffrn_radiation_monochromator  graphite
_diffrn_measurement_device_type  ?
_diffrn_measurement_method       ?
_diffrn_detector_area_resol_mean ?
_diffrn_standards_number         ?
_diffrn_standards_interval_count ?
_diffrn_standards_interval_time  ?
_diffrn_standards_decay_%        ?
_diffrn_reflns_number            5031
_diffrn_reflns_av_R_equivalents  0.0631
_diffrn_reflns_av_sigmaI/netI    0.0655
_diffrn_reflns_limit_h_min       -23
_diffrn_reflns_limit_h_max       23
_diffrn_reflns_limit_k_min       -5
_diffrn_reflns_limit_k_max       5
_diffrn_reflns_limit_l_min       -22
_diffrn_reflns_limit_l_max       22
_diffrn_reflns_theta_min         1.24
_diffrn_reflns_theta_max         28.22
_reflns_number_total             1560
_reflns_number_gt                1254
_reflns_threshold_expression     >2sigma(I)

_computing_data_collection       ?
_computing_cell_refinement       ?
_computing_data_reduction        ?
_computing_structure_solution    'SHELXS-97 (Sheldrick, 1990)'
_computing_structure_refinement  'SHELXL-97 (Sheldrick, 1997)'
_computing_molecular_graphics    ?
_computing_publication_material  ?

_refine_special_details          
;
Refinement of F^2^ against ALL reflections. The weighted R-factor wR and
goodness of fit S are based on F^2^, conventional R-factors R are based
on F, with F set to zero for negative F^2^. The threshold expression of
F^2^ > 2sigma(F^2^) is used only for calculating R-factors(gt) etc. and is
not relevant to the choice of reflections for refinement. R-factors based
on F^2^ are statistically about twice as large as those based on F, and R-
factors based on ALL data will be even larger.
;

_refine_ls_structure_factor_coef Fsqd
_refine_ls_matrix_type           full
_refine_ls_weighting_scheme      calc
_refine_ls_weighting_details     
'calc w=1/[\s^2^(Fo^2^)+(0.0404P)^2^+17.5851P] where P=(Fo^2^+2Fc^2^)/3'
_atom_sites_solution_primary     direct
_atom_sites_solution_secondary   difmap
_atom_sites_solution_hydrogens   none
_refine_ls_hydrogen_treatment    none
_refine_ls_extinction_method     none
_refine_ls_extinction_coef       none
_refine_ls_number_reflns         1560
_refine_ls_number_parameters     69
_refine_ls_number_restraints     0
_refine_ls_R_factor_all          0.0635
_refine_ls_R_factor_gt           0.0458
_refine_ls_wR_factor_ref         0.1016
_refine_ls_wR_factor_gt          0.0938
_refine_ls_goodness_of_fit_ref   1.066
_refine_ls_restrained_S_all      1.066
_refine_ls_shift/su_max          0.000
_refine_ls_shift/su_mean         0.000

loop_
_atom_site_label
_atom_site_type_symbol
_atom_site_fract_x
_atom_site_fract_y
_atom_site_fract_z
_atom_site_U_iso_or_equiv
_atom_site_adp_type
_atom_site_occupancy
_atom_site_symmetry_multiplicity
_atom_site_calc_flag
_atom_site_refinement_flags
_atom_site_disorder_assembly
_atom_site_disorder_group
Er1 Er 0.00161(8) 0.0000 0.33363(8) 0.0122(3) Uani 1 2 d S . .
Er2 Er 0.17553(8) 0.0000 0.53173(8) 0.0137(3) Uani 1 2 d S . .
Er3 Er 0.19107(8) 0.5000 0.31896(8) 0.0129(3) Uani 1 2 d S . .
Er4 Er 0.33787(8) 0.0000 0.01994(8) 0.0135(3) Uani 1 2 d S . .
Er5 Er 0.57520(8) 0.0000 0.17146(9) 0.0139(3) Uani 1 2 d S . .
Er6 Er 0.78097(8) 0.0000 0.19450(8) 0.0114(3) Uani 1 2 d S . .
Er7 Er 0.0000 0.5000 0.5000 0.0140(4) Uani 1 4 d S . .
Er8 Er 0.0000 0.0000 0.0000 0.0130(4) Uani 1 4 d S . .
Au1 Au 0.17180(7) 0.5000 0.11082(7) 0.0135(3) Uani 1 2 d S . .
Au2 Au 0.38046(7) 0.0000 0.60085(7) 0.0148(3) Uani 1 2 d S . .
Te1 Te 0.06476(11) 0.0000 0.8496(1) 0.0128(4) Uani 1 2 d S . .
Te2 Te 0.36683(11) 0.0000 0.33760(12) 0.0116(4) Uani 1 2 d S . .

loop_
_atom_site_aniso_label
_atom_site_aniso_U_11
_atom_site_aniso_U_22
_atom_site_aniso_U_33
_atom_site_aniso_U_23
_atom_site_aniso_U_13
_atom_site_aniso_U_12
Er1 0.0158(7) 0.0104(6) 0.0105(7) 0.000 0.0036(5) 0.000
Er2 0.0200(7) 0.0114(7) 0.0107(7) 0.000 0.0060(6) 0.000
Er3 0.0147(7) 0.0122(7) 0.0121(7) 0.000 0.0043(6) 0.000
Er4 0.0176(7) 0.0105(7) 0.0126(7) 0.000 0.0038(6) 0.000
Er5 0.0162(7) 0.0124(7) 0.0135(7) 0.000 0.0049(6) 0.000
Er6 0.0143(7) 0.0102(6) 0.0111(7) 0.000 0.0055(5) 0.000
Er7 0.0167(10) 0.0166(10) 0.0091(10) 0.000 0.0041(8) 0.000
Er8 0.0175(10) 0.0126(9) 0.0105(10) 0.000 0.0066(8) 0.000
Au1 0.0178(6) 0.0100(6) 0.0128(6) 0.000 0.0040(5) 0.000
Au2 0.0195(6) 0.0111(6) 0.0149(6) 0.000 0.0065(5) 0.000
Te1 0.0163(10) 0.0121(9) 0.0115(10) 0.000 0.0063(8) 0.000
Te2 0.0140(10) 0.0087(9) 0.0123(10) 0.000 0.0037(8) 0.000

_geom_special_details            
;
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.
;

loop_
_geom_bond_atom_site_label_1
_geom_bond_atom_site_label_2
_geom_bond_distance
_geom_bond_site_symmetry_2
_geom_bond_publ_flag
Er1 Au2 2.9080(14) . ?
Er1 Au2 2.9080(14) 1_545 ?
Er1 Te1 3.030(3) 5_545 ?
Er1 Te2 3.1344(19) 3_435 ?
Er1 Te2 3.1344(19) 3_445 ?
Er1 Er3 3.448(2) 1_545 ?
Er1 Er7 3.4523(13) . ?
Er1 Er7 3.4523(13) 1_545 ?
Er1 Er5 3.8719(18) . ?
Er1 Er5 3.8719(18) 1_545 ?
Er2 Au2 2.9792(15) 1_545 ?
Er2 Au2 2.9792(15) . ?
Er2 Te2 3.2007(19) 7_556 ?
Er2 Te2 3.2007(19) 7_546 ?
Er2 Au2 3.550(2) 7_546 ?
Er2 Er3 3.6079(17) 7_556 ?
Er2 Er3 3.6079(17) 7_546 ?
Er2 Er7 3.6353(14) 1_545 ?
Er2 Er7 3.6353(14) . ?
Er2 Er3 3.676(2) 1_545 ?
Er2 Er2 3.685(2) 7_546 ?
Er2 Er2 3.685(2) 7_536 ?
Er3 Au2 2.8790(14) 1_565 ?
Er3 Au2 2.8790(14) . ?
Er3 Te2 3.071(2) . ?
Er3 Er1 3.448(2) 1_565 ?
Er3 Er5 3.4491(16) . ?
Er3 Er5 3.4492(16) 1_565 ?
Er3 Au1 3.450(2) . ?
Er3 Er6 3.5547(16) . ?
Er3 Er6 3.5547(16) 1_545 ?
Er3 Er2 3.6079(17) 7_556 ?
Er3 Er2 3.6079(17) 7_546 ?
Er3 Er2 3.676(2) 1_565 ?
Er4 Au1 2.9484(14) . ?
Er4 Au1 2.9484(14) 1_545 ?
Er4 Te1 3.1536(19) 1_565 ?
Er4 Te1 3.1536(19) . ?
Er4 Er8 3.5943(13) 1_545 ?
Er4 Er8 3.5943(13) . ?
Er4 Er4 3.632(2) 7 ?
Er4 Er4 3.632(2) 7_545 ?
Er4 Au1 3.6589(19) 7 ?
Er4 Er6 3.718(2) 1_545 ?
Er4 Er6 3.8975(17) 7 ?
Er4 Er6 3.8975(17) 7_565 ?
Er5 Au1 2.9762(14) 1_545 ?
Er5 Au1 2.9762(14) . ?
Er5 Te1 3.1432(19) 5_545 ?
Er5 Te1 3.1432(19) 5 ?
Er5 Er3 3.4491(16) 1_545 ?
Er5 Er8 3.4984(13) 1_545 ?
Er5 Er8 3.4984(13) . ?
Er5 Er6 3.592(2) 1_545 ?
Er5 Er1 3.8719(18) 1_565 ?
Er6 Au1 2.8964(14) . ?
Er6 Au1 2.8964(14) 1_565 ?
Er6 Te1 3.023(2) 7 ?
Er6 Te2 3.2132(19) . ?
Er6 Te2 3.2133(19) 1_565 ?
Er6 Er3 3.5546(16) 1_565 ?
Er6 Er5 3.592(2) 1_565 ?
Er6 Er4 3.718(2) 1_565 ?
Er6 Er4 3.8975(17) 7 ?
Er6 Er4 3.8975(17) 7_565 ?
Er7 Au2 3.0418(13) . ?
Er7 Au2 3.0418(13) 5_556 ?
Er7 Te2 3.153(2) 7_556 ?
Er7 Te2 3.153(2) 3_445 ?
Er7 Er1 3.4523(13) 5_556 ?
Er7 Er1 3.4523(13) 1_565 ?
Er7 Er1 3.4523(13) 5_546 ?
Er7 Er2 3.6353(14) 5_546 ?
Er7 Er2 3.6353(14) 1_565 ?
Er7 Er2 3.6353(14) 5_556 ?
Er8 Te1 3.043(2) 5 ?
Er8 Te1 3.043(2) 1_565 ?
Er8 Au1 3.1698(14) 5_565 ?
Er8 Au1 3.1698(14) . ?
Er8 Er5 3.4984(13) 5 ?
Er8 Er5 3.4984(13) 1_565 ?
Er8 Er5 3.4984(13) 5_565 ?
Er8 Er4 3.5943(13) 5 ?
Er8 Er4 3.5943(13) 1_565 ?
Er8 Er4 3.5943(13) 5_565 ?
Au1 Er6 2.8964(14) 1_545 ?
Au1 Er4 2.9484(14) 1_565 ?
Au1 Er5 2.9762(14) 1_565 ?
Au1 Er4 3.6588(19) 7 ?
Au2 Er3 2.8790(14) 1_545 ?
Au2 Er1 2.9080(14) 1_565 ?
Au2 Er2 2.9792(15) 1_565 ?
Au2 Er2 3.550(2) 7_546 ?
Te1 Er6 3.023(2) 7 ?
Te1 Er1 3.030(3) 5_545 ?
Te1 Er8 3.043(2) 1_545 ?
Te1 Er5 3.1431(19) 5_545 ?
Te1 Er5 3.1431(19) 5 ?
Te1 Er4 3.1536(19) 1_545 ?
Te2 Er1 3.1344(19) 3_565 ?
Te2 Er1 3.1344(19) 3 ?
Te2 Er7 3.154(2) 3 ?
Te2 Er2 3.2007(19) 7_556 ?
Te2 Er2 3.2007(19) 7_546 ?
Te2 Er6 3.2132(19) 1_545 ?

loop_
_geom_angle_atom_site_label_1
_geom_angle_atom_site_label_2
_geom_angle_atom_site_label_3
_geom_angle
_geom_angle_site_symmetry_1
_geom_angle_site_symmetry_3
_geom_angle_publ_flag
Au2 Er1 Au2 86.42(5) . 1_545 ?
Au2 Er1 Te1 116.85(5) . 5_545 ?
Au2 Er1 Te1 116.85(5) 1_545 5_545 ?
Au2 Er1 Te2 155.85(7) . 3_435 ?
Au2 Er1 Te2 92.45(4) 1_545 3_435 ?
Te1 Er1 Te2 85.11(6) 5_545 3_435 ?
Au2 Er1 Te2 92.45(4) . 3_445 ?
Au2 Er1 Te2 155.85(7) 1_545 3_445 ?
Te1 Er1 Te2 85.11(6) 5_545 3_445 ?
Te2 Er1 Te2 78.87(6) 3_435 3_445 ?
Au2 Er1 Er3 53.04(3) . 1_545 ?
Au2 Er1 Er3 53.04(3) 1_545 1_545 ?
Te1 Er1 Er3 93.88(6) 5_545 1_545 ?
Te2 Er1 Er3 140.50(3) 3_435 1_545 ?
Te2 Er1 Er3 140.50(3) 3_445 1_545 ?
Au2 Er1 Er7 56.36(3) . . ?
Au2 Er1 Er7 103.64(5) 1_545 . ?
Te1 Er1 Er7 138.86(3) 5_545 . ?
Te2 Er1 Er7 100.81(5) 3_435 . ?
Te2 Er1 Er7 56.96(4) 3_445 . ?
Er3 Er1 Er7 105.36(4) 1_545 . ?
Au2 Er1 Er7 103.64(5) . 1_545 ?
Au2 Er1 Er7 56.36(3) 1_545 1_545 ?
Te1 Er1 Er7 138.86(3) 5_545 1_545 ?
Te2 Er1 Er7 56.96(4) 3_435 1_545 ?
Te2 Er1 Er7 100.81(5) 3_445 1_545 ?
Er3 Er1 Er7 105.36(4) 1_545 1_545 ?
Er7 Er1 Er7 70.44(3) . 1_545 ?
Au2 Er1 Er5 65.02(4) . . ?
Au2 Er1 Er5 106.37(5) 1_545 . ?
Te1 Er1 Er5 52.47(4) 5_545 . ?
Te2 Er1 Er5 137.58(6) 3_435 . ?
Te2 Er1 Er5 94.87(4) 3_445 . ?
Er3 Er1 Er5 55.86(3) 1_545 . ?
Er7 Er1 Er5 110.69(2) . . ?
Er7 Er1 Er5 161.16(5) 1_545 . ?
Au2 Er1 Er5 106.37(5) . 1_545 ?
Au2 Er1 Er5 65.02(4) 1_545 1_545 ?
Te1 Er1 Er5 52.47(4) 5_545 1_545 ?
Te2 Er1 Er5 94.87(4) 3_435 1_545 ?
Te2 Er1 Er5 137.58(6) 3_445 1_545 ?
Er3 Er1 Er5 55.86(3) 1_545 1_545 ?
Er7 Er1 Er5 161.17(5) . 1_545 ?
Er7 Er1 Er5 110.69(2) 1_545 1_545 ?
Er5 Er1 Er5 61.89(3) . 1_545 ?
Au2 Er2 Au2 83.87(5) 1_545 . ?
Au2 Er2 Te2 147.42(7) 1_545 7_556 ?
Au2 Er2 Te2 90.64(4) . 7_556 ?
Au2 Er2 Te2 90.64(4) 1_545 7_546 ?
Au2 Er2 Te2 147.42(7) . 7_546 ?
Te2 Er2 Te2 76.93(6) 7_556 7_546 ?
Au2 Er2 Au2 111.92(4) 1_545 7_546 ?
Au2 Er2 Au2 111.92(4) . 7_546 ?
Te2 Er2 Au2 99.94(5) 7_556 7_546 ?
Te2 Er2 Au2 99.94(5) 7_546 7_546 ?
Au2 Er2 Er3 159.24(6) 1_545 7_556 ?
Au2 Er2 Er3 101.39(3) . 7_556 ?
Te2 Er2 Er3 53.21(4) 7_556 7_556 ?
Te2 Er2 Er3 95.03(5) 7_546 7_556 ?
Au2 Er2 Er3 47.43(3) 7_546 7_556 ?
Au2 Er2 Er3 101.39(3) 1_545 7_546 ?
Au2 Er2 Er3 159.25(6) . 7_546 ?
Te2 Er2 Er3 95.03(5) 7_556 7_546 ?
Te2 Er2 Er3 53.21(4) 7_546 7_546 ?
Au2 Er2 Er3 47.43(3) 7_546 7_546 ?
Er3 Er2 Er3 66.99(4) 7_556 7_546 ?
Au2 Er2 Er7 53.65(3) 1_545 1_545 ?
Au2 Er2 Er7 98.01(5) . 1_545 ?
Te2 Er2 Er7 95.77(5) 7_556 1_545 ?
Te2 Er2 Er7 54.49(4) 7_546 1_545 ?
Au2 Er2 Er7 145.784(19) 7_546 1_545 ?
Er3 Er2 Er7 143.09(5) 7_556 1_545 ?
Er3 Er2 Er7 101.25(3) 7_546 1_545 ?
Au2 Er2 Er7 98.01(5) 1_545 . ?
Au2 Er2 Er7 53.65(3) . . ?
Te2 Er2 Er7 54.49(4) 7_556 . ?
Te2 Er2 Er7 95.77(5) 7_546 . ?
Au2 Er2 Er7 145.784(19) 7_546 . ?
Er3 Er2 Er7 101.25(3) 7_556 . ?
Er3 Er2 Er7 143.09(5) 7_546 . ?
Er7 Er2 Er7 66.42(3) 1_545 . ?
Au2 Er2 Er3 49.93(3) 1_545 1_545 ?
Au2 Er2 Er3 49.93(3) . 1_545 ?
Te2 Er2 Er3 139.78(3) 7_556 1_545 ?
Te2 Er2 Er3 139.78(3) 7_546 1_545 ?
Au2 Er2 Er3 90.05(4) 7_546 1_545 ?
Er3 Er2 Er3 119.22(4) 7_556 1_545 ?
Er3 Er2 Er3 119.22(4) 7_546 1_545 ?
Er7 Er2 Er3 97.28(4) 1_545 1_545 ?
Er7 Er2 Er3 97.28(4) . 1_545 ?
Au2 Er2 Er2 105.86(6) 1_545 7_546 ?
Au2 Er2 Er2 63.33(4) . 7_546 ?
Te2 Er2 Er2 100.10(4) 7_556 7_546 ?
Te2 Er2 Er2 147.94(8) 7_546 7_546 ?
Au2 Er2 Er2 48.59(4) 7_546 7_546 ?
Er3 Er2 Er2 60.53(4) 7_556 7_546 ?
Er3 Er2 Er2 95.98(6) 7_546 7_546 ?
Er7 Er2 Er2 155.39(6) 1_545 7_546 ?
Er7 Er2 Er2 108.50(3) . 7_546 ?
Er3 Er2 Er2 58.70(4) 1_545 7_546 ?
Au2 Er2 Er2 63.33(4) 1_545 7_536 ?
Au2 Er2 Er2 105.86(6) . 7_536 ?
Te2 Er2 Er2 147.94(8) 7_556 7_536 ?
Te2 Er2 Er2 100.10(4) 7_546 7_536 ?
Au2 Er2 Er2 48.59(4) 7_546 7_536 ?
Er3 Er2 Er2 95.98(6) 7_556 7_536 ?
Er3 Er2 Er2 60.53(4) 7_546 7_536 ?
Er7 Er2 Er2 108.50(3) 1_545 7_536 ?
Er7 Er2 Er2 155.39(6) . 7_536 ?
Er3 Er2 Er2 58.70(4) 1_545 7_536 ?
Er2 Er2 Er2 65.40(5) 7_546 7_536 ?
Au2 Er3 Au2 87.51(5) 1_565 . ?
Au2 Er3 Te2 120.78(5) 1_565 . ?
Au2 Er3 Te2 120.78(5) . . ?
Au2 Er3 Er1 53.82(3) 1_565 1_565 ?
Au2 Er3 Er1 53.82(3) . 1_565 ?
Te2 Er3 Er1 170.30(6) . 1_565 ?
Au2 Er3 Er5 118.94(5) 1_565 . ?
Au2 Er3 Er5 71.67(4) . . ?
Te2 Er3 Er5 119.15(5) . . ?
Er1 Er3 Er5 68.30(4) 1_565 . ?
Au2 Er3 Er5 71.67(4) 1_565 1_565 ?
Au2 Er3 Er5 118.94(5) . 1_565 ?
Te2 Er3 Er5 119.15(5) . 1_565 ?
Er1 Er3 Er5 68.30(4) 1_565 1_565 ?
Er5 Er3 Er5 70.51(4) . 1_565 ?
Au2 Er3 Au1 122.47(4) 1_565 . ?
Au2 Er3 Au1 122.47(4) . . ?
Te2 Er3 Au1 86.88(5) . . ?
Er1 Er3 Au1 102.82(5) 1_565 . ?
Er5 Er3 Au1 51.11(3) . . ?
Er5 Er3 Au1 51.11(3) 1_565 . ?
Au2 Er3 Er6 102.07(3) 1_565 . ?
Au2 Er3 Er6 169.66(4) . . ?
Te2 Er3 Er6 57.47(4) . . ?
Er1 Er3 Er6 129.52(4) 1_565 . ?
Er5 Er3 Er6 99.93(5) . . ?
Er5 Er3 Er6 61.69(4) 1_565 . ?
Au1 Er3 Er6 48.82(3) . . ?
Au2 Er3 Er6 169.66(4) 1_565 1_545 ?
Au2 Er3 Er6 102.07(3) . 1_545 ?
Te2 Er3 Er6 57.47(4) . 1_545 ?
Er1 Er3 Er6 129.52(4) 1_565 1_545 ?
Er5 Er3 Er6 61.69(4) . 1_545 ?
Er5 Er3 Er6 99.93(5) 1_565 1_545 ?
Au1 Er3 Er6 48.82(3) . 1_545 ?
Er6 Er3 Er6 68.13(4) . 1_545 ?
Au2 Er3 Er2 65.23(4) 1_565 7_556 ?
Au2 Er3 Er2 110.14(5) . 7_556 ?
Te2 Er3 Er2 56.58(4) . 7_556 ?
Er1 Er3 Er2 115.93(4) 1_565 7_556 ?
Er5 Er3 Er2 175.74(5) . 7_556 ?
Er5 Er3 Er2 111.11(2) 1_565 7_556 ?
Au1 Er3 Er2 126.54(4) . 7_556 ?
Er6 Er3 Er2 77.84(4) . 7_556 ?
Er6 Er3 Er2 114.05(5) 1_545 7_556 ?
Au2 Er3 Er2 110.14(5) 1_565 7_546 ?
Au2 Er3 Er2 65.23(4) . 7_546 ?
Te2 Er3 Er2 56.58(4) . 7_546 ?
Er1 Er3 Er2 115.93(4) 1_565 7_546 ?
Er5 Er3 Er2 111.11(2) . 7_546 ?
Er5 Er3 Er2 175.74(5) 1_565 7_546 ?
Au1 Er3 Er2 126.54(4) . 7_546 ?
Er6 Er3 Er2 114.05(5) . 7_546 ?
Er6 Er3 Er2 77.84(4) 1_545 7_546 ?
Er2 Er3 Er2 66.99(4) 7_556 7_546 ?
Au2 Er3 Er2 52.36(3) 1_565 1_565 ?
Au2 Er3 Er2 52.36(3) . 1_565 ?
Te2 Er3 Er2 102.84(6) . 1_565 ?
Er1 Er3 Er2 67.46(4) 1_565 1_565 ?
Er5 Er3 Er2 122.05(4) . 1_565 ?
Er5 Er3 Er2 122.05(4) 1_565 1_565 ?
Au1 Er3 Er2 170.28(5) . 1_565 ?
Er6 Er3 Er2 137.21(3) . 1_565 ?
Er6 Er3 Er2 137.21(3) 1_545 1_565 ?
Er2 Er3 Er2 60.78(4) 7_556 1_565 ?
Er2 Er3 Er2 60.78(4) 7_546 1_565 ?
Au1 Er4 Au1 84.95(5) . 1_545 ?
Au1 Er4 Te1 91.03(4) . 1_565 ?
Au1 Er4 Te1 150.52(6) 1_545 1_565 ?
Au1 Er4 Te1 150.52(6) . . ?
Au1 Er4 Te1 91.02(4) 1_545 . ?
Te1 Er4 Te1 78.30(6) 1_565 . ?
Au1 Er4 Er8 101.68(4) . 1_545 ?
Au1 Er4 Er8 56.93(3) 1_545 1_545 ?
Te1 Er4 Er8 95.70(5) 1_565 1_545 ?
Te1 Er4 Er8 53.12(4) . 1_545 ?
Au1 Er4 Er8 56.93(3) . . ?
Au1 Er4 Er8 101.68(4) 1_545 . ?
Te1 Er4 Er8 53.12(4) 1_565 . ?
Te1 Er4 Er8 95.70(5) . . ?
Er8 Er4 Er8 67.27(3) 1_545 . ?
Au1 Er4 Er4 66.63(4) . 7 ?
Au1 Er4 Er4 110.10(6) 1_545 7 ?
Te1 Er4 Er4 94.80(4) 1_565 7 ?
Te1 Er4 Er4 140.89(7) . 7 ?
Er8 Er4 Er4 164.42(6) 1_545 7 ?
Er8 Er4 Er4 110.85(2) . 7 ?
Au1 Er4 Er4 110.10(6) . 7_545 ?
Au1 Er4 Er4 66.63(4) 1_545 7_545 ?
Te1 Er4 Er4 140.89(7) 1_565 7_545 ?
Te1 Er4 Er4 94.80(4) . 7_545 ?
Er8 Er4 Er4 110.85(2) 1_545 7_545 ?
Er8 Er4 Er4 164.42(6) . 7_545 ?
Er4 Er4 Er4 66.49(5) 7 7_545 ?
Au1 Er4 Au1 114.33(4) . 7 ?
Au1 Er4 Au1 114.33(4) 1_545 7 ?
Te1 Er4 Au1 93.94(5) 1_565 7 ?
Te1 Er4 Au1 93.94(5) . 7 ?
Er8 Er4 Au1 142.46(2) 1_545 7 ?
Er8 Er4 Au1 142.46(2) . 7 ?
Er4 Er4 Au1 47.71(4) 7 7 ?
Er4 Er4 Au1 47.71(4) 7_545 7 ?
Au1 Er4 Er6 49.88(3) . 1_545 ?
Au1 Er4 Er6 49.88(3) 1_545 1_545 ?
Te1 Er4 Er6 139.81(3) 1_565 1_545 ?
Te1 Er4 Er6 139.81(3) . 1_545 ?
Er8 Er4 Er6 100.70(4) 1_545 1_545 ?
Er8 Er4 Er6 100.70(4) . 1_545 ?
Er4 Er4 Er6 64.03(4) 7 1_545 ?
Er4 Er4 Er6 64.03(4) 7_545 1_545 ?
Au1 Er4 Er6 94.86(5) 7 1_545 ?
Au1 Er4 Er6 159.24(5) . 7 ?
Au1 Er4 Er6 104.19(3) 1_545 7 ?
Te1 Er4 Er6 89.67(5) 1_565 7 ?
Te1 Er4 Er6 49.40(4) . 7 ?
Er8 Er4 Er6 98.89(3) 1_545 7 ?
Er8 Er4 Er6 136.10(4) . 7 ?
Er4 Er4 Er6 92.64(5) 7 7 ?
Er4 Er4 Er6 59.06(4) 7_545 7 ?
Au1 Er4 Er6 44.94(3) 7 7 ?
Er6 Er4 Er6 123.10(4) 1_545 7 ?
Au1 Er4 Er6 104.19(3) . 7_565 ?
Au1 Er4 Er6 159.24(5) 1_545 7_565 ?
Te1 Er4 Er6 49.40(4) 1_565 7_565 ?
Te1 Er4 Er6 89.67(5) . 7_565 ?
Er8 Er4 Er6 136.10(4) 1_545 7_565 ?
Er8 Er4 Er6 98.89(3) . 7_565 ?
Er4 Er4 Er6 59.06(4) 7 7_565 ?
Er4 Er4 Er6 92.64(5) 7_545 7_565 ?
Au1 Er4 Er6 44.94(3) 7 7_565 ?
Er6 Er4 Er6 123.10(4) 1_545 7_565 ?
Er6 Er4 Er6 61.44(3) 7 7_565 ?
Au1 Er5 Au1 83.98(5) 1_545 . ?
Au1 Er5 Te1 92.77(4) 1_545 5_545 ?
Au1 Er5 Te1 153.62(7) . 5_545 ?
Au1 Er5 Te1 153.62(7) 1_545 5 ?
Au1 Er5 Te1 92.77(4) . 5 ?
Te1 Er5 Te1 78.61(6) 5_545 5 ?
Au1 Er5 Er3 109.96(5) 1_545 . ?
Au1 Er5 Er3 64.47(4) . . ?
Te1 Er5 Er3 139.81(6) 5_545 . ?
Te1 Er5 Er3 91.87(4) 5 . ?
Au1 Er5 Er3 64.47(4) 1_545 1_545 ?
Au1 Er5 Er3 109.95(5) . 1_545 ?
Te1 Er5 Er3 91.87(4) 5_545 1_545 ?
Te1 Er5 Er3 139.81(6) 5 1_545 ?
Er3 Er5 Er3 70.51(4) . 1_545 ?
Au1 Er5 Er8 57.95(3) 1_545 1_545 ?
Au1 Er5 Er8 103.35(5) . 1_545 ?
Te1 Er5 Er8 54.22(4) 5_545 1_545 ?
Te1 Er5 Er8 97.83(5) 5 1_545 ?
Er3 Er5 Er8 164.91(5) . 1_545 ?
Er3 Er5 Er8 107.97(2) 1_545 1_545 ?
Au1 Er5 Er8 103.35(5) 1_545 . ?
Au1 Er5 Er8 57.95(3) . . ?
Te1 Er5 Er8 97.83(5) 5_545 . ?
Te1 Er5 Er8 54.22(4) 5 . ?
Er3 Er5 Er8 107.97(2) . . ?
Er3 Er5 Er8 164.91(5) 1_545 . ?
Er8 Er5 Er8 69.38(3) 1_545 . ?
Au1 Er5 Er6 51.29(3) 1_545 1_545 ?
Au1 Er5 Er6 51.29(3) . 1_545 ?
Te1 Er5 Er6 140.65(3) 5_545 1_545 ?
Te1 Er5 Er6 140.65(3) 5 1_545 ?
Er3 Er5 Er6 60.60(4) . 1_545 ?
Er3 Er5 Er6 60.60(4) 1_545 1_545 ?
Er8 Er5 Er6 105.14(4) 1_545 1_545 ?
Er8 Er5 Er6 105.14(4) . 1_545 ?
Au1 Er5 Er1 103.11(3) 1_545 . ?
Au1 Er5 Er1 156.17(5) . . ?
Te1 Er5 Er1 49.86(4) 5_545 . ?
Te1 Er5 Er1 90.39(5) 5 . ?
Er3 Er5 Er1 91.84(4) . . ?
Er3 Er5 Er1 55.84(4) 1_545 . ?
Er8 Er5 Er1 99.59(3) 1_545 . ?
Er8 Er5 Er1 138.76(5) . . ?
Er6 Er5 Er1 116.08(4) 1_545 . ?
Au1 Er5 Er1 156.17(5) 1_545 1_565 ?
Au1 Er5 Er1 103.11(3) . 1_565 ?
Te1 Er5 Er1 90.39(5) 5_545 1_565 ?
Te1 Er5 Er1 49.86(4) 5 1_565 ?
Er3 Er5 Er1 55.84(4) . 1_565 ?
Er3 Er5 Er1 91.84(4) 1_545 1_565 ?
Er8 Er5 Er1 138.76(5) 1_545 1_565 ?
Er8 Er5 Er1 99.59(3) . 1_565 ?
Er6 Er5 Er1 116.08(4) 1_545 1_565 ?
Er1 Er5 Er1 61.89(3) . 1_565 ?
Au1 Er5 Er4 48.27(3) 1_545 . ?
Au1 Er5 Er4 48.27(3) . . ?
Te1 Er5 Er4 111.84(5) 5_545 . ?
Te1 Er5 Er4 111.84(5) 5 . ?
Er3 Er5 Er4 107.97(4) . . ?
Er3 Er5 Er4 107.97(4) 1_545 . ?
Er8 Er5 Er4 57.63(3) 1_545 . ?
Er8 Er5 Er4 57.63(3) . . ?
Er6 Er5 Er4 59.15(4) 1_545 . ?
Er1 Er5 Er4 149.054(17) . . ?
Er1 Er5 Er4 149.055(17) 1_565 . ?
Au1 Er6 Au1 86.85(5) . 1_565 ?
Au1 Er6 Te1 114.95(5) . 7 ?
Au1 Er6 Te1 114.95(5) 1_565 7 ?
Au1 Er6 Te2 94.53(4) . . ?
Au1 Er6 Te2 158.55(6) 1_565 . ?
Te1 Er6 Te2 83.86(6) 7 . ?
Au1 Er6 Te2 158.56(6) . 1_565 ?
Au1 Er6 Te2 94.53(3) 1_565 1_565 ?
Te1 Er6 Te2 83.85(6) 7 1_565 ?
Te2 Er6 Te2 76.58(5) . 1_565 ?
Au1 Er6 Er3 109.10(5) . 1_565 ?
Au1 Er6 Er3 63.71(4) 1_565 1_565 ?
Te1 Er6 Er3 135.85(4) 7 1_565 ?
Te2 Er6 Er3 95.85(5) . 1_565 ?
Te2 Er6 Er3 53.68(4) 1_565 1_565 ?
Au1 Er6 Er3 63.71(4) . . ?
Au1 Er6 Er3 109.09(5) 1_565 . ?
Te1 Er6 Er3 135.85(4) 7 . ?
Te2 Er6 Er3 53.68(4) . . ?
Te2 Er6 Er3 95.85(5) 1_565 . ?
Er3 Er6 Er3 68.13(4) 1_565 . ?
Au1 Er6 Er5 53.30(3) . 1_565 ?
Au1 Er6 Er5 53.30(3) 1_565 1_565 ?
Te1 Er6 Er5 160.15(7) 7 1_565 ?
Te2 Er6 Er5 111.39(5) . 1_565 ?
Te2 Er6 Er5 111.39(5) 1_565 1_565 ?
Er3 Er6 Er5 57.71(3) 1_565 1_565 ?
Er3 Er6 Er5 57.71(3) . 1_565 ?
Au1 Er6 Er4 51.11(3) . 1_565 ?
Au1 Er6 Er4 51.11(3) 1_565 1_565 ?
Te1 Er6 Er4 95.33(6) 7 1_565 ?
Te2 Er6 Er4 141.64(3) . 1_565 ?
Te2 Er6 Er4 141.64(3) 1_565 1_565 ?
Er3 Er6 Er4 110.23(4) 1_565 1_565 ?
Er3 Er6 Er4 110.23(4) . 1_565 ?
Er5 Er6 Er4 64.82(4) 1_565 1_565 ?
Au1 Er6 Er4 63.16(4) . 7 ?
Au1 Er6 Er4 104.53(5) 1_565 7 ?
Te1 Er6 Er4 52.38(4) 7 7 ?
Te2 Er6 Er4 95.09(4) . 7 ?
Te2 Er6 Er4 136.21(6) 1_565 7 ?
Er3 Er6 Er4 167.10(5) 1_565 7 ?
Er3 Er6 Er4 113.74(2) . 7 ?
Er5 Er6 Er4 111.63(4) 1_565 7 ?
Er4 Er6 Er4 56.90(4) 1_565 7 ?
Au1 Er6 Er4 104.53(5) . 7_565 ?
Au1 Er6 Er4 63.16(4) 1_565 7_565 ?
Te1 Er6 Er4 52.38(4) 7 7_565 ?
Te2 Er6 Er4 136.21(6) . 7_565 ?
Te2 Er6 Er4 95.09(4) 1_565 7_565 ?
Er3 Er6 Er4 113.74(2) 1_565 7_565 ?
Er3 Er6 Er4 167.10(5) . 7_565 ?
Er5 Er6 Er4 111.63(4) 1_565 7_565 ?
Er4 Er6 Er4 56.90(4) 1_565 7_565 ?
Er4 Er6 Er4 61.44(3) 7 7_565 ?
Au2 Er7 Au2 180.00(3) . 5_556 ?
Au2 Er7 Te2 90.41(5) . 7_556 ?
Au2 Er7 Te2 89.59(5) 5_556 7_556 ?
Au2 Er7 Te2 89.59(5) . 3_445 ?
Au2 Er7 Te2 90.41(5) 5_556 3_445 ?
Te2 Er7 Te2 180.0 7_556 3_445 ?
Au2 Er7 Er1 127.26(3) . 5_556 ?
Au2 Er7 Er1 52.74(3) 5_556 5_556 ?
Te2 Er7 Er1 56.43(3) 7_556 5_556 ?
Te2 Er7 Er1 123.57(3) 3_445 5_556 ?
Au2 Er7 Er1 52.74(3) . 1_565 ?
Au2 Er7 Er1 127.26(3) 5_556 1_565 ?
Te2 Er7 Er1 123.57(3) 7_556 1_565 ?
Te2 Er7 Er1 56.43(3) 3_445 1_565 ?
Er1 Er7 Er1 109.56(3) 5_556 1_565 ?
Au2 Er7 Er1 127.26(3) . 5_546 ?
Au2 Er7 Er1 52.74(3) 5_556 5_546 ?
Te2 Er7 Er1 56.43(3) 7_556 5_546 ?
Te2 Er7 Er1 123.57(3) 3_445 5_546 ?
Er1 Er7 Er1 70.44(3) 5_556 5_546 ?
Er1 Er7 Er1 180.0 1_565 5_546 ?
Au2 Er7 Er1 52.74(3) . . ?
Au2 Er7 Er1 127.26(3) 5_556 . ?
Te2 Er7 Er1 123.57(3) 7_556 . ?
Te2 Er7 Er1 56.43(3) 3_445 . ?
Er1 Er7 Er1 180.0 5_556 . ?
Er1 Er7 Er1 70.44(3) 1_565 . ?
Er1 Er7 Er1 109.56(3) 5_546 . ?
Au2 Er7 Er2 127.92(3) . 5_546 ?
Au2 Er7 Er2 52.08(3) 5_556 5_546 ?
Te2 Er7 Er2 124.28(3) 7_556 5_546 ?
Te2 Er7 Er2 55.72(3) 3_445 5_546 ?
Er1 Er7 Er2 104.79(3) 5_556 5_546 ?
Er1 Er7 Er2 112.12(3) 1_565 5_546 ?
Er1 Er7 Er2 67.88(3) 5_546 5_546 ?
Er1 Er7 Er2 75.21(3) . 5_546 ?
Au2 Er7 Er2 52.08(3) . 1_565 ?
Au2 Er7 Er2 127.92(3) 5_556 1_565 ?
Te2 Er7 Er2 55.72(3) 7_556 1_565 ?
Te2 Er7 Er2 124.28(3) 3_445 1_565 ?
Er1 Er7 Er2 75.21(3) 5_556 1_565 ?
Er1 Er7 Er2 67.88(3) 1_565 1_565 ?
Er1 Er7 Er2 112.12(3) 5_546 1_565 ?
Er1 Er7 Er2 104.79(3) . 1_565 ?
Er2 Er7 Er2 180.0 5_546 1_565 ?
Au2 Er7 Er2 127.92(3) . 5_556 ?
Au2 Er7 Er2 52.08(3) 5_556 5_556 ?
Te2 Er7 Er2 124.28(3) 7_556 5_556 ?
Te2 Er7 Er2 55.72(3) 3_445 5_556 ?
Er1 Er7 Er2 67.88(3) 5_556 5_556 ?
Er1 Er7 Er2 75.21(3) 1_565 5_556 ?
Er1 Er7 Er2 104.79(3) 5_546 5_556 ?
Er1 Er7 Er2 112.12(3) . 5_556 ?
Er2 Er7 Er2 66.42(3) 5_546 5_556 ?
Er2 Er7 Er2 113.58(3) 1_565 5_556 ?
Au2 Er7 Er2 52.08(3) . . ?
Au2 Er7 Er2 127.92(3) 5_556 . ?
Te2 Er7 Er2 55.72(3) 7_556 . ?
Te2 Er7 Er2 124.28(3) 3_445 . ?
Er1 Er7 Er2 112.12(3) 5_556 . ?
Er1 Er7 Er2 104.79(3) 1_565 . ?
Er1 Er7 Er2 75.21(3) 5_546 . ?
Er1 Er7 Er2 67.88(3) . . ?
Er2 Er7 Er2 113.58(3) 5_546 . ?
Er2 Er7 Er2 66.42(3) 1_565 . ?
Er2 Er7 Er2 180.0 5_556 . ?
Te1 Er8 Te1 180.0 5 1_565 ?
Te1 Er8 Au1 89.00(5) 5 5_565 ?
Te1 Er8 Au1 91.00(5) 1_565 5_565 ?
Te1 Er8 Au1 91.00(5) 5 . ?
Te1 Er8 Au1 89.00(5) 1_565 . ?
Au1 Er8 Au1 180.0 5_565 . ?
Te1 Er8 Er5 123.07(4) 5 5 ?
Te1 Er8 Er5 56.93(4) 1_565 5 ?
Au1 Er8 Er5 52.74(3) 5_565 5 ?
Au1 Er8 Er5 127.26(3) . 5 ?
Te1 Er8 Er5 56.93(4) 5 1_565 ?
Te1 Er8 Er5 123.07(4) 1_565 1_565 ?
Au1 Er8 Er5 127.26(3) 5_565 1_565 ?
Au1 Er8 Er5 52.74(3) . 1_565 ?
Er5 Er8 Er5 180.00(5) 5 1_565 ?
Te1 Er8 Er5 123.07(4) 5 5_565 ?
Te1 Er8 Er5 56.93(4) 1_565 5_565 ?
Au1 Er8 Er5 52.74(3) 5_565 5_565 ?
Au1 Er8 Er5 127.26(3) . 5_565 ?
Er5 Er8 Er5 69.38(3) 5 5_565 ?
Er5 Er8 Er5 110.62(3) 1_565 5_565 ?
Te1 Er8 Er5 56.93(4) 5 . ?
Te1 Er8 Er5 123.07(4) 1_565 . ?
Au1 Er8 Er5 127.26(3) 5_565 . ?
Au1 Er8 Er5 52.74(3) . . ?
Er5 Er8 Er5 110.62(3) 5 . ?
Er5 Er8 Er5 69.38(3) 1_565 . ?
Er5 Er8 Er5 180.0 5_565 . ?
Te1 Er8 Er4 124.00(3) 5 . ?
Te1 Er8 Er4 56.00(3) 1_565 . ?
Au1 Er8 Er4 128.79(3) 5_565 . ?
Au1 Er8 Er4 51.21(3) . . ?
Er5 Er8 Er4 76.05(3) 5 . ?
Er5 Er8 Er4 103.95(3) 1_565 . ?
Er5 Er8 Er4 112.92(3) 5_565 . ?
Er5 Er8 Er4 67.08(3) . . ?
Te1 Er8 Er4 56.00(3) 5 5 ?
Te1 Er8 Er4 124.00(3) 1_565 5 ?
Au1 Er8 Er4 51.22(3) 5_565 5 ?
Au1 Er8 Er4 128.79(3) . 5 ?
Er5 Er8 Er4 67.08(3) 5 5 ?
Er5 Er8 Er4 112.92(3) 1_565 5 ?
Er5 Er8 Er4 103.95(3) 5_565 5 ?
Er5 Er8 Er4 76.05(3) . 5 ?
Er4 Er8 Er4 112.73(3) . 5 ?
Te1 Er8 Er4 124.00(3) 5 1_565 ?
Te1 Er8 Er4 56.00(3) 1_565 1_565 ?
Au1 Er8 Er4 128.78(3) 5_565 1_565 ?
Au1 Er8 Er4 51.21(3) . 1_565 ?
Er5 Er8 Er4 112.92(3) 5 1_565 ?
Er5 Er8 Er4 67.08(3) 1_565 1_565 ?
Er5 Er8 Er4 76.05(3) 5_565 1_565 ?
Er5 Er8 Er4 103.95(3) . 1_565 ?
Er4 Er8 Er4 67.27(3) . 1_565 ?
Er4 Er8 Er4 180.00(4) 5 1_565 ?
Te1 Er8 Er4 56.00(3) 5 5_565 ?
Te1 Er8 Er4 124.00(3) 1_565 5_565 ?
Au1 Er8 Er4 51.22(3) 5_565 5_565 ?
Au1 Er8 Er4 128.78(3) . 5_565 ?
Er5 Er8 Er4 103.95(3) 5 5_565 ?
Er5 Er8 Er4 76.05(3) 1_565 5_565 ?
Er5 Er8 Er4 67.08(3) 5_565 5_565 ?
Er5 Er8 Er4 112.92(3) . 5_565 ?
Er4 Er8 Er4 180.0 . 5_565 ?
Er4 Er8 Er4 67.27(3) 5 5_565 ?
Er4 Er8 Er4 112.73(3) 1_565 5_565 ?
Er6 Au1 Er6 86.85(5) 1_545 . ?
Er6 Au1 Er4 79.01(4) 1_545 . ?
Er6 Au1 Er4 137.54(6) . . ?
Er6 Au1 Er4 137.54(6) 1_545 1_565 ?
Er6 Au1 Er4 79.01(4) . 1_565 ?
Er4 Au1 Er4 84.95(5) . 1_565 ?
Er6 Au1 Er5 131.90(6) 1_545 1_565 ?
Er6 Au1 Er5 75.41(4) . 1_565 ?
Er4 Au1 Er5 141.16(6) . 1_565 ?
Er4 Au1 Er5 82.84(4) 1_565 1_565 ?
Er6 Au1 Er5 75.41(4) 1_545 . ?
Er6 Au1 Er5 131.89(6) . . ?
Er4 Au1 Er5 82.84(4) . . ?
Er4 Au1 Er5 141.16(6) 1_565 . ?
Er5 Au1 Er5 83.98(5) 1_565 . ?
Er6 Au1 Er8 136.27(3) 1_545 . ?
Er6 Au1 Er8 136.27(3) . . ?
Er4 Au1 Er8 71.85(4) . . ?
Er4 Au1 Er8 71.85(4) 1_565 . ?
Er5 Au1 Er8 69.31(4) 1_565 . ?
Er5 Au1 Er8 69.31(4) . . ?
Er6 Au1 Er3 67.47(4) 1_545 . ?
Er6 Au1 Er3 67.47(4) . . ?
Er4 Au1 Er3 137.51(3) . . ?
Er4 Au1 Er3 137.51(3) 1_565 . ?
Er5 Au1 Er3 64.43(4) 1_565 . ?
Er5 Au1 Er3 64.42(4) . . ?
Er8 Au1 Er3 116.11(4) . . ?
Er6 Au1 Er4 71.90(4) 1_545 7 ?
Er6 Au1 Er4 71.90(4) . 7 ?
Er4 Au1 Er4 65.67(4) . 7 ?
Er4 Au1 Er4 65.67(4) 1_565 7 ?
Er5 Au1 Er4 137.94(2) 1_565 7 ?
Er5 Au1 Er4 137.94(2) . 7 ?
Er8 Au1 Er4 121.06(4) . 7 ?
Er3 Au1 Er4 122.83(5) . 7 ?
Er3 Au2 Er3 87.51(5) . 1_545 ?
Er3 Au2 Er1 131.07(6) . . ?
Er3 Au2 Er1 73.14(4) 1_545 . ?
Er3 Au2 Er1 73.14(4) . 1_565 ?
Er3 Au2 Er1 131.07(6) 1_545 1_565 ?
Er1 Au2 Er1 86.42(5) . 1_565 ?
Er3 Au2 Er2 77.71(4) . 1_565 ?
Er3 Au2 Er2 135.36(6) 1_545 1_565 ?
Er1 Au2 Er2 145.08(6) . 1_565 ?
Er1 Au2 Er2 84.54(4) 1_565 1_565 ?
Er3 Au2 Er2 135.36(6) . . ?
Er3 Au2 Er2 77.71(4) 1_545 . ?
Er1 Au2 Er2 84.54(4) . . ?
Er1 Au2 Er2 145.08(6) 1_565 . ?
Er2 Au2 Er2 83.87(5) 1_565 . ?
Er3 Au2 Er7 135.89(3) . . ?
Er3 Au2 Er7 135.89(3) 1_545 . ?
Er1 Au2 Er7 70.89(4) . . ?
Er1 Au2 Er7 70.89(4) 1_565 . ?
Er2 Au2 Er7 74.27(4) 1_565 . ?
Er2 Au2 Er7 74.27(4) . . ?
Er3 Au2 Er2 67.35(4) . 7_546 ?
Er3 Au2 Er2 67.34(4) 1_545 7_546 ?
Er1 Au2 Er2 135.51(3) . 7_546 ?
Er1 Au2 Er2 135.51(3) 1_565 7_546 ?
Er2 Au2 Er2 68.08(4) 1_565 7_546 ?
Er2 Au2 Er2 68.08(4) . 7_546 ?
Er7 Au2 Er2 128.51(5) . 7_546 ?
Er6 Te1 Er1 84.05(6) 7 5_545 ?
Er6 Te1 Er8 139.75(8) 7 1_545 ?
Er1 Te1 Er8 136.19(7) 5_545 1_545 ?
Er6 Te1 Er5 135.86(4) 7 5_545 ?
Er1 Te1 Er5 77.67(5) 5_545 5_545 ?
Er8 Te1 Er5 68.86(4) 1_545 5_545 ?
Er6 Te1 Er5 135.86(4) 7 5 ?
Er1 Te1 Er5 77.67(5) 5_545 5 ?
Er8 Te1 Er5 68.86(4) 1_545 5 ?
Er5 Te1 Er5 78.61(6) 5_545 5 ?
Er6 Te1 Er4 78.22(5) 7 1_545 ?
Er1 Te1 Er4 136.30(4) 5_545 1_545 ?
Er8 Te1 Er4 70.88(5) 1_545 1_545 ?
Er5 Te1 Er4 87.89(4) 5_545 1_545 ?
Er5 Te1 Er4 139.73(7) 5 1_545 ?
Er6 Te1 Er4 78.22(5) 7 . ?
Er1 Te1 Er4 136.30(4) 5_545 . ?
Er8 Te1 Er4 70.88(5) 1_545 . ?
Er5 Te1 Er4 139.73(7) 5_545 . ?
Er5 Te1 Er4 87.89(4) 5 . ?
Er4 Te1 Er4 78.30(6) 1_545 . ?
Er3 Te2 Er1 140.01(3) . 3_565 ?
Er3 Te2 Er1 140.01(3) . 3 ?
Er1 Te2 Er1 78.87(6) 3_565 3 ?
Er3 Te2 Er7 128.19(7) . 3 ?
Er1 Te2 Er7 66.60(5) 3_565 3 ?
Er1 Te2 Er7 66.60(5) 3 3 ?
Er3 Te2 Er2 70.20(5) . 7_556 ?
Er1 Te2 Er2 86.16(4) 3_565 7_556 ?
Er1 Te2 Er2 136.33(8) 3 7_556 ?
Er7 Te2 Er2 69.79(5) 3 7_556 ?
Er3 Te2 Er2 70.20(5) . 7_546 ?
Er1 Te2 Er2 136.33(8) 3_565 7_546 ?
Er1 Te2 Er2 86.16(4) 3 7_546 ?
Er7 Te2 Er2 69.79(5) 3 7_546 ?
Er2 Te2 Er2 76.93(6) 7_556 7_546 ?
Er3 Te2 Er6 68.85(5) . . ?
Er1 Te2 Er6 79.34(4) 3_565 . ?
Er1 Te2 Er6 127.02(7) 3 . ?
Er7 Te2 Er6 140.44(3) 3 . ?
Er2 Te2 Er6 89.11(4) 7_556 . ?
Er2 Te2 Er6 139.05(7) 7_546 . ?
Er3 Te2 Er6 68.85(5) . 1_545 ?
Er1 Te2 Er6 127.02(7) 3_565 1_545 ?
Er1 Te2 Er6 79.34(4) 3 1_545 ?
Er7 Te2 Er6 140.44(3) 3 1_545 ?
Er2 Te2 Er6 139.05(7) 7_556 1_545 ?
Er2 Te2 Er6 89.11(4) 7_546 1_545 ?
Er6 Te2 Er6 76.58(5) . 1_545 ?

_diffrn_measured_fraction_theta_max 0.955
_diffrn_reflns_theta_full        28.22
_diffrn_measured_fraction_theta_full 0.955
_refine_diff_density_max         4.001
_refine_diff_density_min         -3.474
_refine_diff_density_rms         0.874