VRML gallery of High-Tc
Superconducting Copper-Oxides

generated with JSV1.08, S.Weber, 1999


I used my program JSV1.08 to reproduce the structure drawings in the booklet of Physica C, 1994: "Crystal structures of the High-Tc Superconducting Copper-Oxides". I created the GIF images below, VRML1.0/VRML2.0 files and PostScript files. The images are linked to the VRML2.0 files. Clicking at them will open another window, where your VRML browser plug-in can display the structure. If you want to download the files just click at the links using the right mouse button and choose "save link/target as..". In the booklet a Four Number Naming Scheme was used for classifying the structures. An explanation of this is given at the end of this page.

for Dr.Julio Ramirez-Castellanos, Dr.Nellie Khasanova and Dr.Matsui

0 2 0 1

(La,Ba)2CuO4

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 1
ht_1_p21_v1
ht_1_p21_v2
ht_1_p21.ps
page 21
0 2 0 1 T'

(Nd,Ce)2CuO4-d

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 2
ht_2_p23_v1
ht_2_p23_v2
ht_2_p23.ps
page 23
0 2 0 1 T*

(Nd,Sr,Ce)2CuO4

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 3
ht_3_p25_v1
ht_3_p25_v2
ht_3_p25.ps
page 25
1 2 0 1

HgBa2CuO4+d

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 4
ht_4_p21_v1
ht_4_p27_v2
ht_4_p27.ps
page 27
1 2 0 1 T*

(Pb,Cu)(Eu,Ce)2(Sr,Eu)2Cu2O9

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 5
ht_5_p29_v1
ht_5_p29_v2
ht_5_p29.ps
page 29
1 2 0 1 T* F

(Eu,Ce)2(Ba,Eu)2Cu3O10-d

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 6
ht_6_p31_v1
ht_6_p31_v2
ht_6_p31.ps
page 31
1 2 0 1 / 1 2 0 1

(Tl,Pb)Sr4Cu2CO3O7

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 7
ht_7_p33_v1
ht_7_p33_v2
ht_7_p33.ps
page 33
2 2 0 1

Tl2Ba2CuO6

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 8
ht_8_p35_v1
ht_8_p35_v2
ht_8_p35.ps
page 35
2 2 0 1 T*

Bi2Sr2(Gd,Ce)2Cu2O10

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 9
ht_9_p37_v1
ht_9_p37_v2
ht_9_p37.ps
page 37
see *
3 2 0 1

Pb2(Sr,La)2Cu2O6

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 10
ht_10_p39_v1
ht_10_p39_v2
ht_10_p39.ps
page 39
0 2 1 2

(La,Sr,Ca)3Cu2O6

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 11
ht_11_p41_v1
ht_11_p41_v2
ht_11_p41.ps
page 41
1 2 1 2

TlBa2CaCu2O7-d

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 12
ht_12_p43_v1
ht_12_p43_v2
ht_12_p43.ps
page 43
1 2 1 2 C

YBa2Cu3O7-d

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 13
ht_13_p45_v1
ht_13_p45_v2
ht_13_p45.ps
page 45
2 2 1 2

Tl2Ba2CaCu2O8

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 14
ht_14_p47_v1
ht_14_p47_v2
ht_14_p47.ps
page 47
2 2 1 2 C

YBa2Cu4O8

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 15
ht_15_p49_v1
ht_15_p49_v2
ht_15_p49.ps
page 49
1 2 1 2 C / 2 2 1 2 C

Y2Ba4Cu7O15

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 16
ht_16_p51_v1
ht_16_p51_v2
ht_16_p51.ps
page 51
3 2 1 2

Pb2Sr2YCu3O8

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 17
ht_17_p53_v1
ht_17_p53_v2
ht_17_p53.ps
page 53
0 2 2 3

PbBaYSrCu3O8

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 18
ht_18_p55_v1
ht_18_p55_v2
ht_18_p55.ps
page 55
1 2 2 3

TlBa2Ca2Cu3O9+d

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 19
ht_19_p57_v1
ht_19_p57_v2
ht_19_p57.ps
page 57
2 2 2 3

Tl2Ba2Ca2Cu3O10

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 20
ht_20_p59_v1
ht_20_p59_v2
ht_20_p59.ps
page 59
0 2 3 4

(Sr,Ca)5Cu4O10

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 21
ht_21_p61_v1
ht_21_p61_v2
ht_21_p61.ps
page 61
1 2 3 4

TlBa2Ca3Cu4O11

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 22
ht_22_p63_v1
ht_22_p63_v2
ht_22_p63.ps
page 63
2 2 3 4

Tl2Ba2Ca3Cu4O12

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 23
ht_23_p65_v1
ht_23_p65_v2
ht_23_p65.ps
page 65
1 2 4 5

TlBa2Ca4Cu5O13

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 24
ht_24_p67_v1
ht_24_p67_v2
ht_24_p67.ps
page 67
2 2 4 5

Tl2Ba2Ca4Cu5O14

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 25
ht_25_p69_v1
ht_25_p69_v2
ht_25_p69.ps
page 69
0 2 "oo-1" oo

(Ba,Sr)CuO2

Vrml 1 file:
Vrml 2 file:
PostScript:
No. 26
ht_26_p71_v1
ht_26_p71_v2
ht_26_p71.ps
page 71
  * note on No. 9

The drawing on page 37 could neither be reproduced from the given atom coordinates nor does the drawing correspond to the original figure in the reference paper. I therefore reproduced the original structure as given in T.Arima et.al., Physica C 168 (1990), 79-84

 

Four Number Naming Scheme

 

eg: No.19, page 57, TlBa2Ca2Cu3O9+d

1 2 2 3

1. number:

number of insulating layers between adjacent blocks of CuO2 layers

green + white atoms

2. number:

number of spacing layers between adjacent blocks of CuO2 layers

yellow atoms + pyramid apices

3. number:

number of separating layers in the conducting blocks of CuO2 layers

blue atoms

4. number:

number of conducting CuO2 layers in the conducting blocks

1 square layer + 2 pyramid base layers

 

Atom Colors

  Cu
  O
  Ba, Sr, La, Nd, Ce, Eu, Gd
  Tl, Hg, Pb, Bi
  Ca, Y
  CO

 

download everything

click here to download the whole archive jsv_hightc.zip, size=333 Kb
(use right mouse button and choose save Target/Link as ...)