High-temperature Superconductivity Data

前些日子查詢了CRC Handbook of Chemistry and Physics上的物理化學數據 這裏存一下主要的高溫超導體和有機超導體的Tc值

忽然想起了高中的時候在玉泉做高溫超導體的科研 沒能作出什麼成果真的很可惜 但是TTfish仍然堅信凝聚態物理的未來離開不了超導體 無論是量子計算機(小時候做的夢)還是常溫超導體 高分子超導體 肯定會有突破點 肯定會有一天超導體研究實現突破

因爲可能還要進行學習 存儲一下

高温超导体

超導材料 結構性質 臨界溫度 Tc/K
La2CuO4+δ Bmab; a = 5.355, b = 5.401, c = 13.15 Å 39
La2-xSrx(Bax)CuO4 I4/mmm; a = 3.779, c = 13.23 Å 35
La2Ca1-xSrxCu2O6 I4/mmm; a = 3.825, c = 19.42 Å 60
YBa2Cu3O7 Pmmm; a = 3.821, b = 3.885, c = 11.676 Å 93
YBa2Cu4O8 Ammm; a = 3.84, b = 3.87, c = 27.24 Å 80
Y2Ba4Cu7O15 Ammm; a = 3.851, b = 3.869, c = 50.29 Å 93
Bi2Sr2CuO6 Amaa; a = 5.362, b = 5.374, c = 24.622 Å 10
Bi2CaSr2Cu2O8 A2aa; a = 5.409, b = 5.420, c = 30.93 Å 92
Bi2Ca2Sr2Cu3O10 A2aa; a = 5.39, b = 5.40, c = 37 Å 110
Bi2Sr2(Ln1-xCex)2Cu2O10 P4/mmm; a = 3.888, c = 17.28 Å 25
Tl2Ba2CuO6 A2aa; a = 5.468, b = 5.472, c = 23.238 Å; I4/mmm; a = 3.866, c = 23.239 Å 92
Tl2CaBa2Cu2O8 I4/mmm; a = 3.855, c = 29.318 Å 119
Tl2Ca2Ba2Cu3O10 I4/mmm; a = 3.85, c = 35.9 Å 128
Tl(BaLa)CuO5 P4/mmm; a = 3.83, c = 9.55 Å 40
Tl(SrLa)CuO5 P4/mmm; a = 3.7, c = 9 Å 40
(Tl0.5Pb0.5)Sr2CuO5 P4/mmm; a = 3.738, c = 9.01 Å 40
TlCaBa2Cu2O7 P4/mmm; a = 3.856, c = 12.754 Å 103
(Tl0.5Pb0.5)CaSr2Cu2O7 P4/mmm; a = 3.80, c = 12.05 Å 90
TlSr2Y0.5Ca0.5Cu2O7 P4/mmm; a = 3.80, c = 12.10 Å 90
TlCa2Ba2Cu3O8 P4/mmm; a = 3.853, c = 15.913 Å 110
(Tl0.5Pb0.5)Sr2Ca2Cu3O9 P4/mmm; a = 3.81, c = 15.23 Å 120
TlBa2(La1-xCex)2Cu2O9 I4/mmm; a = 3.8, c = 29.5 Å 40
Pb2Sr2La0.5Ca0.5Cu3O8 Cmmm; a = 5.435, b = 5.463, c = 15.817 Å 70
Pb2(Sr,La)2Cu2O6 P2212; a = 5.333, b = 5.421, c = 12.609 Å 32
(Pb,Cu)Sr2(La,Ca)Cu2O7 P4/mmm; a = 3.820, c = 11.826 Å 50
(Pb,Cu)(Sr,Eu)(Eu,Ce)Cu2Ox I4/mmm; a = 3.837, c = 29.01 Å 25
Nd2-xCexCuO4 I4/mmm; a = 3.95, c = 12.07 Å 30
Ca1-xSrxCuO2 P4/mmm; a = 3.902, c = 3.35 Å 110
Sr1-xNdxCuO2 P4/mmm; a = 3.942, c = 3.393 Å 40
Ba0.6K0.4BiO3 Pm3m; a = 4.287 Å 31
Rb2CsC60 a =14.493 Å 31
NdBa2Cu3O7 Pmmm; a = 3.878, b = 3.913, c = 11.753 58
SmBaSrCu3O7 I4/mmm; a = 3.854, c = 11.62 84
EuBaSrCu3O7 I4/mmm; a = 3.845, c = 11.59 88
GdBaSrCu3O7 I4/mmm; a = 3.849, c = 11.53 86
DyBaSrCu3O7 Pmmm; a = 3.802, b = 3.850, c = 11.56 90
HoBaSrCu3O7 Pmmm; a = 3.794, b = 3.849, c = 11.55 87
ErBaSrCu3O7 Pmmm; a = 3.787, b = 3.846, c = 11.54 82
TmBaSrCu3O7 Pmmm; a = 3.784, b = 3.849, c = 11.55 88
YBaSrCu3O7 Pmmm; a = 3.803, b = 3.842, c = 11.54 84
HgBa2CuO4 I4/mmm; a = 3.878, c = 9.507 94
HgBa2CaCu2O6 (annealed in O2) I4/mmm; a = 3.862, c = 12.705 127
HgBa2Ca2Cu3O8 Pmmm; a = 3.85, c = 15.85 133
HgBa2Ca3Cu4O10 Pmmm; a = 3.854, c = 19.008 126

有機超導體

超導材料 臨界壓強 Pc/kbar 臨界溫度Tc/K
(TMTSF)2PF6 6.5 1.2
(TMTSF)2AsF6 9 1.3
(TMTSF)2SbF6 11 0.4
(TMTSF)2TaF6 12 1.4
(TMTSF)2ClO4 0 1.4
(TMTSF)2ReO4 9.5 1.3
(TMTSF)2FSO3 5 3
(ET)4(ReO4)2 4.5 2
βL-(ET)2I3 0 1.4
βH-(ET)2I3 0 8.1
γ-(ET)3I2.5 0 2.5
ε-(ET)2I3(I8)0.5 0 2.5
α-(ET)2I3I2-doped 0 3.3
αt-(ET)2I3 0 8
ε→β-(ET)2I3 0 6
θ-(ET)2I3 0 3.6
κ-(ET)2I3 0 3.6
β-(ET)2IBr2 0 2.8
β-(ET)2AuI2 0 4.8
(ET)4Hg2.89Cl8 0 4.2
(ET)4Hg2.89Br8 12 1.8
(ET)3Cl2(H2O)2 16 2
κ-(ET)2Cu(NCS)2 0 10.4
κ-(d-ET)2Cu(NCS)2 0 11.4
(DMET)2Au(CN)2 1.5 0.9
(DMET)2AuI2 5 0.6
(DMET)2AuBr2 0 1.9
(DMET)2AuCl2 0 0.9
(DMET)2I3 0 0.6
(DMET)2lBr2 0 0.7
(MDT-TTF)2AuI2 0 3.5
TTF[Ni(dmit)2]2 2 1.6
TTF[Pd(dmit)2]2 20 6.5
(CH3)4N[Ni(dmit)2]2 7 5

References

  • Ginsburg, D. M., Ed., Physical Properties of High-Temperature Superconductors, Vols. I–III, World Scientific, Singapore, 1989–1992.
  • Rao, C. N. R., Ed., Chemistry of High-Temperature Superconductors, World Scientific, Singapore, 1991.
  • Shackelford, J. F., The CRC Materials Science and Engineering Handbook, CRC Press, Boca Raton, FL, 1992, 98–99 and 122–123.
  • Kaldis, E., Ed., Materials and Crystallographic Aspects of HTc-Superconductivity, Kluwer Academic Publ., Dordrecht, the Netherlands, 1992.
  • Malik, S. K. and Shah, S. S., Ed., Physical and Material Properties of High Temperature Superconductors, Nova Science, Commack, NY, 1994.
  • Chmaissem, O. et al., Physica, C230, 231–238, 1994.
  • Antipov, E. V. et al., Physica, C215, 1–10, 1993.
  • Ishigura, T. and Yamaji, K., Organic Superconductors, Springer-Verlag, Berlin, 1990.
  • Williams, J. M. et al., Organic Superconductors (Including Fullerenes), Prentice Hall, Englewood Cliffs NJ, 1992.
  • The Fullerenes, Ed.: Krato, H. W., Fisher, J. E., and Cox, D. E., Pergammon Press, Oxford, 1993.
  • Schluter, M. et al., in The Fullerenes (Ref. 3), p. 303.
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