本文从已有的实验与理论研究成果出发,分析和讨论了主导铜氧化物超导体转变温度Tc及其微观机制的各种外在和内禀的因素,在此基础上提出了进一步探索高Tc超导新材料的几种可能途径.
参考文献
[1] | Y M Malozovsky;J D Fan .[J].Physica C,1994,231:63-79. |
[2] | 张其瑞 等.[J].中国科学A辑,1993,409(04):409. |
[3] | Almasan C C.Chemistry of High Temperature Superconductors Singapore[M].World Scientific Publishing Co Ltd,1991:205. |
[4] | 周午纵;梁维耀.高温超导基础研究[M].上海:上海科学技术出版社,1999:204. |
[5] | 焦正宽 等.[J].物理学进展,1995,15 |
[6] | Egerton R F.Electron Energy-Loss Spectroscopy in the Transmission Electron Microscope[M].New York:Plenum Press,1986 |
[7] | Wang Z L .[J].Micron,1996,27:265. |
[8] | J Nagamatsu et al.Superconductivity at 39K in Magnesium Diboride[J].Nature,2001,410:63. |
[9] | Cristina Buzea.Tsutomu Yamashita Review of Superconducting Properties of MgB[J].Superconductor Science and Technology |
[10] | D Djurek et al.Superconductivity in the Chain Conductor AgxPb6CO9+B[Z]. |
[11] | A F Hebard et al.[J].NATURE,1991,350:600. |
[12] | P K Stephen et al.[J].Nature,1991,352:223. |
[13] | K Tanigaki et al.[J].Nature,1991,352:222. |
[14] | B W Roberts .[J].Nat Bur Stand,1978,983(zk) |
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