A Fermi Energy-Incorporated Framework for Dealing with the Temperature- and Magnetic Field-Dependent Critical Current Densities of Superconductors and Its Application to Bi-2212

World Journal of Condensed Matter Physics Pub Date : 2020-03-16 DOI:10.4236/wjcmp.2020.102004

G. P. Malik, V. S. Varma

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引用次数: 3

Abstract

It is well known that the critical current density of a superconductor depends on its size, shape, nature of doping and the manner of preparation. It is suggested here that the collective effect of such differences for different samples of the same superconductor is to endow them with different values of the Fermi energy—a single property to which may be attributed the observed variation in their critical current densities. The study reported here extends our earlier work concerned with the generalized BCS equations [Malik, G.P. (2010) Physica B, 405, 3475-3481; Malik, G.P. (2013) WJCMP, 3,103-110]. We develop here for the first time a framework of microscopic equations that incorporates all of the following parameters of a superconductor: temperature, momentum of Cooper pairs, Fermi energy, applied magnetic field and critical current density. As an application of this framework, we address the different values of critical current densities of Bi-2212 for non-zero values of temperature and applied magnetic field that have been reported in the literature.

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超导体临界电流密度随温度和磁场变化的费米能量整合框架及其在Bi-2212中的应用

众所周知，超导体的临界电流密度取决于其尺寸、形状、掺杂性质和制备方法。本文认为，对于同一超导体的不同样品，这种差异的集体效应是赋予它们不同的费米能值——这一单一性质可能归因于所观察到的临界电流密度的变化。本文报道的研究扩展了我们早期关于广义BCS方程的工作[Malik, gp . (2010) physics B, 405, 3475-3481;Malik, G.P. (2013) wjmp, 3103 -110。我们在这里首次开发了一个微观方程框架，它包含了超导体的所有以下参数:温度，库珀对的动量，费米能量，外加磁场和临界电流密度。作为该框架的应用，我们解决了文献中报道的温度和外加磁场非零值时Bi-2212临界电流密度的不同值。

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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World Journal of Condensed Matter Physics

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