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高压下富氢高温超导体的新探索
引用本文:段德芳,黄晓丽,崔田. 高压下富氢高温超导体的新探索[J]. 硅酸盐学报, 2021, 49(2): 250-255
作者姓名:段德芳  黄晓丽  崔田
作者单位:吉林大学物理学院,长春 130012;吉林大学物理学院,长春 130012;宁波大学物理科学与技术学院 浙江宁波 315211
基金项目:国家自然科学基金(51632002,11674122,11974133)。
摘    要:实现室温超导是超导研究的终极目标.最近科学家在高压下富氢材料中发现了系列高温超导体,特别是首先被理论预测随后被实验证实的新型硫氢化物H3S和镧系氢化物LaH10,它们的超导转变温度均超过200 K.富氢材料已经被认为是室温超导体的最佳候选体系,成为物理、材料、超导等多学科的研究热点.综述了本课题组在此领域的主要成果,包...

关 键 词:高压  富氢材料  超导体  金刚石  对顶砧  第一性原理

New Exploration of Hydrogen-based High-temperature Superconductors under High Pressure
DUAN Defang,HUANG Xiaoli,CUI Tian. New Exploration of Hydrogen-based High-temperature Superconductors under High Pressure[J]. Journal of The Chinese Ceramic Society, 2021, 49(2): 250-255
Authors:DUAN Defang  HUANG Xiaoli  CUI Tian
Affiliation:(College of Physics,Jilin University,Changchun 130012,China;School of Physical Science and Technology,Ningbo University,Ningbo 315211,Zhejiang,China)
Abstract:Developing room-temperature superconductors is the ultimate goal of superconducting research field.Recent work focus onthe development of high-temperature superconductors in hydrogen-rich materials under high pressure.Sulfur hydride(H3S)and lanthanide hydride(LaH10)with superconducting transition temperatures(Tc)of>200 K are theoretically predicted and then experimentally confirmed.Hydrogen-rich materials are considered as one of optimum candidates for room-temperature superconductors,thus becoming a hot research aspect in physics and materials.Some contributions in this aspect were achieved involve a variety of new cage-like superhydridesPrH9 and NdH9 are synthesized under high pressure,and their Tcis determined,The magnetic properties of NdH9 are discovered and its magnetic properties suppress a superconductivity;Novel cage-like superhydrides of CaH_(9 )are designed under high pressure,and its Tcis predicted to be 266 K;superconducting zirconium hydrogen compounds ZrH3 and Zr4 H15 are synthesized under mild pressure conditions by experimental and theoretical studie;The binary hydrides are extended to ternary hydrides,and MgXH6(X=Si,Ge)with Tcof 60 K are designed.
Keywords:high pressure  hydrogen-rich material  superconductivity  diamond  anvil cell  first principles
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