短程（高斯）无序相关性对超导特性的影响

Condensed Matter Pub Date : 2024-01-12 DOI:10.3390/condmat9010006

V. Neverov, A. Lukyanov, A. Krasavin, Alexei Vagov, Mihail D. Croitoru

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摘要

追求增强超导设备性能的重点历来是尽量减少材料中的无序状态。然而，最近的研究通过探索无序材料的独特特性，对这一传统观点提出了挑战。在这些研究之后，无序目前被视为一种可以调整的设计参数。这一范式的转变引发了研究热潮，表明无序可以显著提高超导性能。以往的研究几乎都关注与无序强度相关的影响，而本文则侧重于短程无序相关性的影响，例如在实际材料中由于晶格缺陷而产生的短程无序相关性。研究表明，这种关联的程度会对超导特性产生强烈影响。

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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The Impact of Short-Range (Gaussian) Disorder Correlations on Superconducting Characteristics

The pursuit of enhanced superconducting device performance has historically focused on minimizing disorder in materials. Recent research, however, challenges this conventional wisdom by exploring the unique characteristics of disordered materials. Following the studies, disorder is currently viewed as a design parameter that can be tuned. This shift in the paradigm has sparked an upsurge in research efforts, which demonstrates that disorder can significantly augment the superconductivity figures of merit. While almost all previous studies attended to the effects related to disorder strength, this article focuses on the impact of short-range disorder correlations that in real materials takes place, for example, due to lattice defects. The study shows that the degree of such correlations can strongly influence the superconducting characteristics.

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Condensed Matter

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