#------------------------------------------------------------------------------
#$Date: 2016-04-02 21:40:40 +0300 (Sat, 02 Apr 2016) $
#$Revision: 180798 $
#$URL: file:///home/coder/svn-repositories/cod/hkl/2/01/29/2012919.hkl $
#------------------------------------------------------------------------------
#
# This file is available in the Crystallography Open Database (COD),
# http://www.crystallography.net/. The original data for this entry
# were provided by IUCr Journals, http://journals.iucr.org/.
#
# The file may be used within the scientific community so long as
# proper attribution is given to the journal article from which the
# data were obtained.
#
data_2012919_Fobs
loop_
_publ_author_name
'Valldor, Martin'
'Bryntse, Ingrid'
'Morawski, Andrzej'
_publ_section_title
;
 The superconductor (Tl,Hg,Ca)~2~(Ba,Sr)~2~(Ca,Sr,Tl)Cu~2~O~7.6~
;
_journal_issue                   9
_journal_name_full               'Acta Crystallographica Section C'
_journal_page_first              i126
_journal_page_last               i128
_journal_volume                  58
_journal_year                    2002
_space_group_IT_number           139
_symmetry_space_group_name_Hall  '-I 4 2'
_symmetry_space_group_name_H-M   'I 4/m m m'
_cod_data_source_file            br1382Isup2.hkl
_cod_data_source_block           I
loop_
_refln_index_h
_refln_index_k
_refln_index_l
_refln_F_meas
_refln_F_calc
_refln_F_sigma
1 1 0 294.7 313.9 1.8
0 2 0 314.0 315.8 1.9
2 2 0 247.1 250.3 1.5
1 3 0 204.5 203.3 1.2
3 3 0 153.9 151.8 1.0
0 4 0 177.4 179.7 1.1
0 1 1 4.9 8.5 5.1
1 2 1 4.8 5.6 4.1
0 3 1 7.8 1.6 4.6
2 3 1 7.4 0.5 4.1
1 4 1 7.9 1.2 4.6
1 1 2 95.8 93.9 0.7
0 2 2 46.9 46.4 0.5
2 2 2 34.4 36.2 0.7
1 3 2 49.6 50.0 0.5
3 3 2 29.7 31.2 1.1
0 4 2 19.4 22.2 1.5
0 1 3 54.7 51.7 0.6
1 2 3 38.9 36.8 0.5
0 3 3 29.0 28.6 0.7
2 3 3 23.0 22.3 0.7
1 4 3 19.8 17.4 1.3
0 0 4 1.4 44.4 8.5
1 1 4 30.6 28.7 1.0
0 2 4 32.5 31.8 0.7
2 2 4 24.9 23.9 0.9
1 3 4 17.6 17.0 1.0
3 3 4 9.5 10.1 5.1
0 4 4 14.1 14.1 1.8
0 1 5 161.3 158.5 1.0
1 2 5 125.4 124.2 0.8
0 3 5 104.0 103.1 0.7
2 3 5 88.5 87.4 0.6
1 4 5 76.7 74.9 0.6
0 0 6 55.6 54.4 2.0
1 1 6 19.3 20.3 1.2
0 2 6 38.8 39.2 0.7
2 2 6 30.6 30.9 0.8
1 3 6 15.3 16.1 1.2
3 3 6 13.1 11.8 5.5
0 4 6 19.9 21.3 1.2
0 1 7 256.4 254.2 1.6
1 2 7 206.9 203.1 1.3
0 3 7 171.6 169.8 1.0
2 3 7 149.4 146.3 0.9
1 4 7 132.3 128.6 0.8
0 0 8 13.0 11.3 9.9
1 1 8 36.1 35.7 0.7
0 2 8 6.2 5.1 4.8
2 2 8 4.8 0.8 5.0
1 3 8 21.5 22.1 0.8
3 3 8 13.9 19.0 7.0
0 4 8 5.9 4.0 5.5
0 1 9 33.4 31.2 0.8
1 2 9 25.1 25.0 0.7
0 3 9 20.8 22.1 1.1
2 3 9 20.6 21.9 1.1
1 4 9 21.6 22.8 1.0
0 0 10 65.1 66.0 1.3
1 1 10 100.3 99.0 0.7
0 2 10 55.2 55.6 0.6
2 2 10 46.6 47.6 0.6
1 3 10 63.5 63.7 0.5
0 4 10 34.0 35.5 0.8
0 1 11 91.4 93.3 0.6
1 2 11 72.9 73.7 0.5
0 3 11 59.0 60.0 0.5
2 3 11 51.4 50.8 0.5
1 4 11 42.8 44.4 0.9
0 0 12 235.7 229.7 1.8
1 1 12 183.8 181.2 1.1
0 2 12 177.1 177.4 1.1
2 2 12 144.7 145.6 0.9
1 3 12 122.8 123.9 0.8
0 4 12 104.9 106.2 0.7
0 1 13 52.2 53.0 0.6
1 2 13 43.4 43.3 0.5
0 3 13 39.5 37.1 0.6
2 3 13 32.4 32.3 0.6
0 0 14 188.7 183.1 1.3
1 1 14 154.9 152.8 1.0
0 2 14 140.3 141.5 0.9
2 2 14 114.8 115.3 0.7
1 3 14 100.6 101.8 0.6
0 1 15 28.0 27.8 1.3
1 2 15 19.8 20.5 0.8
0 3 15 15.1 14.9 1.4
2 3 15 10.6 11.2 1.7
0 0 16 22.7 25.8 1.9
1 1 16 5.5 6.0 5.0
0 2 16 24.2 24.2 1.1
2 2 16 25.3 24.2 0.9
1 3 16 12.7 10.8 1.4
0 1 17 129.7 129.0 0.9
1 2 17 104.7 106.2 0.7
0 3 17 89.7 91.1 0.7
2 3 17 78.0 78.9 0.6
0 0 18 151.6 150.2 1.0
1 1 18 107.2 107.9 0.7
0 2 18 121.8 122.4 0.8
2 2 18 103.0 103.9 0.7
1 3 18 79.0 80.3 0.5
0 1 19 140.1 143.3 0.9
1 2 19 116.5 119.7 0.7
0 3 19 100.1 101.4 0.7
0 0 20 6.9 4.6 6.7
1 1 20 21.1 22.6 1.0
0 2 20 5.0 5.5 5.0
2 2 20 7.0 5.6 4.8
1 3 20 14.8 16.6 1.2
0 1 21 55.4 56.6 0.7
1 2 21 45.6 46.7 0.5
0 3 21 39.0 39.1 0.7
0 0 22 46.1 47.3 1.1
1 1 22 44.7 46.4 0.6
0 2 22 39.2 40.1 0.7
2 2 22 33.8 34.2 0.7
1 3 22 33.8 33.6 0.6
0 1 23 21.3 24.5 1.5
1 2 23 17.7 19.3 1.1
0 3 23 14.9 15.1 1.8
1 1 24 107.3 109.1 0.7
0 2 24 93.3 92.4 0.7
2 2 24 81.4 80.7 0.6
0 1 25 121.5 122.5 0.8
1 2 25 106.5 107.0 0.7
1 1 26 73.9 73.2 0.6
0 2 26 81.4 80.9 0.7
0 1 27 29.7 27.4 1.1
1 2 27 26.5 24.3 0.8
0 0 28 46.4 43.1 1.4
1 1 28 52.9 51.9 0.6
0 2 28 35.6 35.0 0.9
0 1 29 57.2 56.1 0.6
0 0 30 78.1 74.0 1.0
1 1 30 64.6 62.3 0.6
0 1 31 82.7 82.6 0.7
0 0 32 82.7 78.1 1.1