无序薄膜中的量子波动和多分数增强超导性

IF 1.1 3区 物理与天体物理 Q4 PHYSICS, APPLIED
E. S. Andriyakhina, P. A. Nosov, S. Raghu, I. S. Burmistrov
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引用次数: 0

摘要

二维系统中电子-电子相互作用与弱局域化(或反局域化)现象之间的相互作用可显著提高超导转变温度。我们发展了薄膜中这种多分形增强超导态的量子波动理论。在弱无序条件下,我们采用芬克尔斯坦非线性西格玛模型,推导出超导阶次参数和准经典格林函数的有效作用,细致地考虑了量子波动的影响。这种有效作用适用于任何强度的相互作用,揭示了众所周知的集体模式在脏超导体中的关键作用,其鞍点分析得出了修正的乌萨德尔方程和间隙方程。这些方程全面纳入了相互作用和无序之间相互作用所产生的重正化,导致了间隙函数的非三维能量依赖性。值得注意的是,我们的分析建立了超导转变温度下自洽间隙方程与正常态下相互作用参数的已知重正化群方程之间的直接关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Quantum Fluctuations and Multifractally enhanced Superconductivity in Disordered Thin Films

Quantum Fluctuations and Multifractally enhanced Superconductivity in Disordered Thin Films

The interplay between electron–electron interactions and weak localization (or anti-localization) phenomena in two-dimensional systems can significantly enhance the superconducting transition temperature. We develop the theory of quantum fluctuations within such multifractally enhanced superconducting states in thin films. In conditions of weak disorder, we employ the Finkel’stein nonlinear sigma model to derive an effective action for the superconducting order parameter and the quasiclassical Green’s function, meticulously accounting for the influence of quantum fluctuations. This effective action, applicable for interactions of any strength, reveals the critical role of well-known collective modes in a dirty superconductor, and its saddle-point analysis leads to modified Usadel and gap equations. These equations comprehensively incorporate the renormalizations stemming from the interplay between interactions and disorder, resulting in the non-trivial energy dependence of the gap function. Notably, our analysis establishes a direct relation between the self-consistent gap equation at the superconducting transition temperature and the known renormalization group equations for interaction parameters in the normal state.

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来源期刊
Journal of Low Temperature Physics
Journal of Low Temperature Physics 物理-物理:凝聚态物理
CiteScore
3.30
自引率
25.00%
发文量
245
审稿时长
1 months
期刊介绍: The Journal of Low Temperature Physics publishes original papers and review articles on all areas of low temperature physics and cryogenics, including theoretical and experimental contributions. Subject areas include: Quantum solids, liquids and gases; Superfluidity; Superconductivity; Condensed matter physics; Experimental techniques; The Journal encourages the submission of Rapid Communications and Special Issues.
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