高温超导电性
- 网络high-temperature superconductivity;high temperature superconductivity;superconductivity
高温超导电性-
新氧化物超导体系Tl-Sr-V-Cu-O的高温超导电性
High temperature superconductivity of the new oxide superconductor tl-sr-v-cu-o
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据此,作者认为Cu-O面的局域电子结构是1:2:3相高温超导体中高温超导电性的决定因素。
Based on the above results , the authors propose that the localized electronic structure of Cu-O plane is a dominating factor for high temperature superconductivity in 1:2:3 phase superconductors .
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本报告综述了高温超导电性的理论发展,并在此基础上,探讨了最近发现高Tc超导氧化物的超导机制。
In this paper theoretical developments of ligh temperature superconductivity has been reviewed and superconducting mechanism of newly-discovered high Tc Superconducting oxides are discussed .
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YBa2Cu3O(7-y)体系高温超导电性的理论研究Ⅱ&CuO3链对决定体系超导转变温度Tc诸因素的影响
Theoretical studying on the superconductivity of yba_2cu_3o_7-y system ⅱ effect of cuo_3 chain on factors that determining the critical temperature of superconductor
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Bi-Ca-Sr-Cu-O体系中的高温超导电性
High Tc Superconductivity of Bi-Sr-Ca-Cu-O System
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脉冲管制冷机在高温超导电性测试中的应用
Application of pulse tube refrigerator in the measurements of high Tc superconductivity
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人们普遍相信,对钴氧化物超导材料的研究有利于阐明铜氧化物高温超导电性机理。
It is believed that the investigations in cobaltates are expected to shed light on the mechanism of cuprate superconductors .
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掺杂对钙钛矿型铜氧化物高温超导电性的影响高温铜氧化物超导体能隙问题研究最新进展
Influence of Element Substitution on the High Temperature Superconductive Electricity of Copper Oxides of Perovskite Structure ; Recent advances on energy gaps in high temperature cuprate oxide superconductors
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随着高温超导电性理论和计算机技术的不断发展和完善,关于高温超导体的数值仿真开始得到关注,它是在实验验证基础上研究超导电性的有效手段。
With the development of the theory of the HTS electric property and the computer technology , people begin to pay attention to the simulation of the HTS . Based on the validation of the experiment , simulation is an effective method to study the HTS electric property .
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高温超导体的临界电流密度(J_c)的温度、磁场和取向关系特性J_c(T、B、θ)及其维度效应,是高温超导电性的中心课题。
The temperature , field and orientation dependences of critical current density J_c ( T , B ,θ) andits dimensional effect of high temperature superconductors are the central issue of high tempera-ture superconductivity .