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Main Authors: Hijano, Alberto, Ilić, Stefan, Bergeret, F. Sebastián
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2311.01148
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author Hijano, Alberto
Ilić, Stefan
Bergeret, F. Sebastián
author_facet Hijano, Alberto
Ilić, Stefan
Bergeret, F. Sebastián
contents We present a theory of weak localization (WL) in the presence of generic spin-dependent fields, including any type of spin-orbit coupling, Zeeman fields, and non-homogeneous magnetic textures. We go beyond the usual diffusive approximation, considering systems with short-range disorder of arbitrary strength, and obtain a compact expression for the weak localization (WL) correction to the conductivity in terms of the singlet-triplet polarization operator in momentum space. The latter can be directly related to the solution of the quasiclassical Eilenberger equation for superconducting systems. This formulation presents an intuitive framework to explore how the interplay of various spin-dependent fields drives weak (anti) localization. We apply our results to study in-plane magnetoconductivity in systems with spin-orbit coupling, and in newly discovered altermagnets. Our results enable straightforward calculation of the WL conductivity at arbitrary disorder strength, which can be particularly useful for interpreting experiments on high-mobility samples.
format Preprint
id arxiv_https___arxiv_org_abs_2311_01148
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Weak localization at arbitrary disorder strength in systems with generic spin-dependent fields
Hijano, Alberto
Ilić, Stefan
Bergeret, F. Sebastián
Mesoscale and Nanoscale Physics
We present a theory of weak localization (WL) in the presence of generic spin-dependent fields, including any type of spin-orbit coupling, Zeeman fields, and non-homogeneous magnetic textures. We go beyond the usual diffusive approximation, considering systems with short-range disorder of arbitrary strength, and obtain a compact expression for the weak localization (WL) correction to the conductivity in terms of the singlet-triplet polarization operator in momentum space. The latter can be directly related to the solution of the quasiclassical Eilenberger equation for superconducting systems. This formulation presents an intuitive framework to explore how the interplay of various spin-dependent fields drives weak (anti) localization. We apply our results to study in-plane magnetoconductivity in systems with spin-orbit coupling, and in newly discovered altermagnets. Our results enable straightforward calculation of the WL conductivity at arbitrary disorder strength, which can be particularly useful for interpreting experiments on high-mobility samples.
title Weak localization at arbitrary disorder strength in systems with generic spin-dependent fields
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2311.01148