T c enhancement in multiphonon-mediated multiband superconductivity

A. Bussmann-Holder, M. Gulácsi, A. Bishop
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引用次数: 3

Abstract

Abstract We study a model of a multiband Fermi-surface structure to investigate its effect on the superconducting transition temperature in the limit of a high number of bands. We consider a simple limit consisting of an infinite number of identical locally pairwise coupled bands with intraband and interband hopping and a multiband generalized Bardeen-Cooper-Schrieffer Hamiltonian. The self-consistent mean-field system of equations which determines the intraband and interband order parameters decouples to two independent equations, unless the interband hopping integral is non-zero, in which case an energetically stable superconducting phase appears, where both the intraband and the interband gaps are non-zero. We demonstrate that for all values of the interband coupling constant the critical transition temperature is enhanced compared with the pure intraband critical transition temperature. The model is equivalent to a multiple momentum exchange originating from the interband coupling and thus modelling a highly anisotropic gap structure.
多声子介导的多带超导中的tc增强
摘要本文研究了一个多带费米表面结构模型,以研究其在高带极限下对超导转变温度的影响。我们考虑了一个由无限个具有带内跳频和带间跳频的相同局部对耦合带组成的简单极限,以及一个多带广义Bardeen-Cooper-Schrieffer哈密顿量。决定带内和带间序参量的自洽平均场方程组解耦为两个独立的方程组,除非带间跳积分不为零,在这种情况下,出现能量稳定的超导相位,其中带内和带间间隙都不为零。我们证明了对于所有的带间耦合常数值,临界转变温度都比纯带内临界转变温度高。该模型等效于源于带间耦合的多重动量交换,从而模拟了高度各向异性的间隙结构。
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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