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Correlated disorder as a way towards robust superconductivity

Physics

Correlated disorder as a way towards robust superconductivity

V. D. Neverov, A. E. Lukyanov, et al.

This groundbreaking research led by Vyacheslav D. Neverov and colleagues challenges the conventional wisdom regarding superconductors and their interaction with nonmagnetic impurities. It uncovers how spatially correlated disorder profoundly impacts superconducting properties, paving the way for innovative manipulation of these materials.

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Playback language: English
Abstract
This work investigates the impact of spatially correlated disorder on superconductivity. It challenges the conventional assumption that ordinary superconductors are insensitive to low concentrations of nonmagnetic impurities, demonstrating that correlations in impurity positions significantly influence superconducting robustness. The study reveals that manipulating spatial correlations, alongside impurity density, offers a novel pathway for controlling superconducting properties.
Publisher
Communications Physics
Published On
Jul 06, 2022
Authors
Vyacheslav D. Neverov, Alexander E. Lukyanov, Andrey V. Krasavin, Alexei Vagov, Mihail D. Croitoru
Tags
superconductivity
spatial correlations
disorder effects
nonmagnetic impurities
impurity density
control mechanisms

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