用半经典方法计算h3s超导体的穿透深度

IF 0.2 Q4 MULTIDISCIPLINARY SCIENCES Suranaree Journal of Science and Technology Pub Date : 2023-10-09 DOI:10.55766/sujst-2023-04-e02470
Grittichon Chanilkul, Arpapong Changjan, Thitipong Kruaehong, Pongkeaw Udomsamuthirun
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引用次数: 0

摘要

穿透深度是外磁场穿透超导体表面的一种磁场机制,与迈斯纳效应有关。利用半经典方法研究了超导体的穿透深度特性,从而确定了超导体的其他特性。在本研究中,我们研究了H3S超导体在外压作用下的穿透深度。H3S超导体是高Tc、s波各向同性、高压制备的超导体。导出了含压力效应参数的近零度侵彻深度解析方程。对所得方程进行了数值计算,并对H-3S超导体穿透深度的实验数据进行了预测。我们发现H-3S超导体在压力下的温度依赖穿透深度在Tc(χ = 473, ε0 = 91,Qp = 0.1) = 200.832 k时是合理的,以及直接参数对Tc(χ,ε0,Qp)、Δ(0,χ,ε0,Qp)和λ(T,χ,ε0,Qp)/λ(0,χ,ε0,Qp)的影响,其中Qp>0.1不对应理论
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THE PENETRATION DEPTH OF H3S SUPERCONDUCTOR BY SEMICLASSICAL APPROACH
The penetration depth is a magnetic field mechanism by which an external magnetic field penetrates into superconductors’ surfaces and is related to the Meissner effect. The penetration depth property was studied by the semiclassical approach to identify other properties of superconductors. In this study, we investigated the penetration depth of the H3S superconductor under external pressure. The H3S superconductor is high Tc, s-wave isotropic, and high pressure prepared superconductors. We derive an analytical equation for the near-zero temperature penetration depth with pressure effect parameters. The derived equations were then numerically calculated and predicted the experimental data on H­3S superconductor penetration depth. We discovered that the temperature dependent penetration depth under pressure of H­3S superconductor is reasonable at Tc(χ = 473, ε0 = 91,Qp = 0.1) = 200.832 K. , as well as is the influence of the directly parameter on Tc(χ,ε0,Qp), Δ(0,χ,ε0,Qp), and λ(T,χ,ε0,Qp)/λ(0,χ,ε0,Qp), with Qp>0.1 does not corresponding theory
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来源期刊
Suranaree Journal of Science and Technology
Suranaree Journal of Science and Technology MULTIDISCIPLINARY SCIENCES-
CiteScore
0.30
自引率
50.00%
发文量
0
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