Progress in the research of copper-oxide superconductors

Journal of Transportation Systems Engineering and Information Technology Pub Date : 2018-11-19 DOI:10.17816/TRANSSYST201843S1203-211

Shaoqiang Tang, H. Pan, Zhao Xu

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Abstract

Since H·Carvalin·Onnesse discovered the superconductivity of mercury in 1911, we have made progress in the research of the superconductor and the superconductor have evolved from single element, alloy to complex compounds with multiple elements.With the development of the research about new superconducting materials, the research of iron based superconductors, copper-oxide superconductor and magnesium boride superconductor is the latest research trend. So far the proved highest superconducting transition temperature of copper-oxide superconductor is 130 K under normal pressure and could reach more than 160 K under high pressure. Based on the experience accumulated in past decades, we propose some general introduction about the main structure type, the superconducting principle and the application of copper-oxide superconductor.It is expected that a positive effect would be made in the research of copper-oxide superconductor. Background: Since H·Carvalin·Onnesse discovered the superconductivity of mercury in 1911, we have made progress in the research of the superconductor and the superconductor have evolved from single element, alloy to complex compounds with multiple elements. Aim: The purpose of this paper is to explain the differences between copper oxide superconductors and conventional superconductors and their superconducting mechanism. Methods: The superconducting mechanism and structure of copper oxide superconductors were analyzed by means of literature investigation, conceptual analysis and comparative study. Results: In this paper, the different structure forms of copper oxide are analyzed, and its superconducting mechanism is described in detail. The applications of several main copper oxide superconductors are introduced. Conclusion: Based on the experience accumulated in past decades, we propose some general introduction about the main structure type, the superconducting principle and the application of copper-oxide superconductor.It is expected that a positive effect would be made in the research of copper-oxide superconductor.

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氧化铜超导体的研究进展

自1911年H·Carvalin·Onnesse发现汞的超导性以来，超导体的研究取得了很大进展，超导体从单元素合金发展到多元素复合化合物。随着新型超导材料研究的不断深入，铁基超导体、氧化铜超导体和硼化镁超导体的研究是最新的研究趋势。目前已证实的氧化铜超导体的最高超导转变温度在常压下为130 K，在高压下可达到160 K以上。根据几十年来积累的经验，对氧化铜超导体的主要结构类型、超导原理及其应用作了简要介绍。期望对氧化铜超导体的研究产生积极的影响。背景:自1911年H·Carvalin·Onnesse发现汞的超导性以来，超导体的研究取得了一定的进展，超导体已经从单元素合金发展到多元素复合化合物。目的:阐述氧化铜超导体与常规超导体的区别及其超导机理。方法:采用文献调查、概念分析和对比研究等方法，对氧化铜超导体的超导机理和结构进行分析。结果:本文分析了氧化铜的不同结构形式，并详细阐述了其超导机理。介绍了几种主要的氧化铜超导体的应用。结论:根据几十年来积累的经验，对氧化铜超导体的主要结构类型、超导原理及应用作了简要介绍。期望对氧化铜超导体的研究产生积极的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Transportation Systems Engineering and Information Technology

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