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Main Authors: Kanakubo, Takuma, Adachi, Hiroto, Ichioka, Masanori, Kato, Yusuke
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.10200
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author Kanakubo, Takuma
Adachi, Hiroto
Ichioka, Masanori
Kato, Yusuke
author_facet Kanakubo, Takuma
Adachi, Hiroto
Ichioka, Masanori
Kato, Yusuke
contents We theoretically investigate the motion of a domain wall and a vortex in type-II superconductors driven by inhomogeneities of temperature or spin density. The model consists of the time-dependent Ginzburg-Landau equation and the thermal/spin diffusion equation, whose transport coefficients (the thermal/spin conductivity and the spin relaxation time) depend on the order parameter, interpolating between values in the superconducting and normal states. Numerical and analytical calculations indicate that the domain wall moves toward the higher-temperature/spin-density region, where the order parameter is suppressed. We also derive an analytical expression for the vortex velocity. We can understand the dynamics of topological defects as processes that reduce the loss of condensation energy. We also analyze the driving force, the viscous force, the thermal force, and the force due to the spin accumulation gradient, on the basis of the momentum balance relations.
format Preprint
id arxiv_https___arxiv_org_abs_2405_10200
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dynamics of Topological Defects in Type-II Superconductors under Gradients of Temperature/Spin Density
Kanakubo, Takuma
Adachi, Hiroto
Ichioka, Masanori
Kato, Yusuke
Superconductivity
We theoretically investigate the motion of a domain wall and a vortex in type-II superconductors driven by inhomogeneities of temperature or spin density. The model consists of the time-dependent Ginzburg-Landau equation and the thermal/spin diffusion equation, whose transport coefficients (the thermal/spin conductivity and the spin relaxation time) depend on the order parameter, interpolating between values in the superconducting and normal states. Numerical and analytical calculations indicate that the domain wall moves toward the higher-temperature/spin-density region, where the order parameter is suppressed. We also derive an analytical expression for the vortex velocity. We can understand the dynamics of topological defects as processes that reduce the loss of condensation energy. We also analyze the driving force, the viscous force, the thermal force, and the force due to the spin accumulation gradient, on the basis of the momentum balance relations.
title Dynamics of Topological Defects in Type-II Superconductors under Gradients of Temperature/Spin Density
topic Superconductivity
url https://arxiv.org/abs/2405.10200