物理学进展 ›› 2023, Vol. 43 ›› Issue (3): 68-83.doi: 10.13725/j.cnki.pip.2023.03.002

所属专题: 2023年, 第43卷

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临界温度高于 110 K 氧化物超导体的种类和特性

童淑云, 蔡传兵   

  1. 上海市高温超导重点实验室,上海大学理学院物理系,上海 200444
  • 出版日期:2023-06-20 发布日期:2023-06-20

Types and Properties of Copper-Oxide Superconductors with Critical Temperatures Above 110 K

TONG Shu-yun, CAI Chuan-bing   

  1. Shanghai Key Laboratory of High Temperature Superconductors, Department of Physics, Shanghai University, Shanghai 200444, China
  • Online:2023-06-20 Published:2023-06-20

摘要:

氧化物超导体是非常规超导体最重要的表现形式之一,其中铊系、汞系和铜碳系列超导体 的超导临界转变温度 (Tc) 都可达到 110 K 及以上,高的超导转变温度和液氮温区较高的不可逆磁 场,以及广泛应用潜能备受人们关注。显然,高的超导临界温度使超导应用的冷却介质选择增多, 经济实用的冷却剂可望扩大这些高超导转变温度超导体的应用领域和增加长期运行可行性。本文对 110 K 超导临界温度超导材料包括铊系、汞系和铜碳系超导体的发展历程和超导性能进行介绍 和总结,并从理论上去分析超导转变温度的影响因素,定性解释高温超导体高 T的原因。特别关 注分析了它们不可逆场的差异,展望这些高临界温度超导体的可能新型应用。

关键词: 氧化物超导体, 超导转变温度, 冷却剂, 不可逆场

Abstract:

Oxide superconductor is one of the most important forms of unconventional superconductors, in which the transition temperatures of thallium series, mercury series and copper-carbon series superconductors can reach 110 K or above. High superconducting transition temperature and irreversible magnetic field in liquid nitrogen temperature region have attracted much attention. Obviously, the high superconducting critical temperature increases the choice of cooling medium for superconducting applications. Economical and practical coolants are expected to expand the application fields of these high superconducting transition temperature (T) superconductors and increase the feasibility of long-term operation. In this paper, the development and superconducting properties of 110 K superconducting materials including thallium, mercury and copper-carbon superconductors are introduced and summarized, and the factors affecting the superconducting transition temperature are analyzed theoretically to qualitatively explain the reasons for the high T of high temperature superconductors. Special attention is paid to the analysis of the differences of their irreversible fields, and the possible new applications of these high critical temperature superconductors are prospected.

Key words: oxide superconductor, superconducting transition temperature, new coolant; high irreversible field

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