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Main Author: Yanagisawa, Takashi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.12073
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author Yanagisawa, Takashi
author_facet Yanagisawa, Takashi
contents We investigate the magnetic field distribution in multi-component superconductors. We examine a layered superconductor and a two-component one-layer superconductor. We evaluate the field distribution in the presence of a half-flux quantum vortex with a kink structure in the phase space of gap functions. We also examine the magnetic field distribution of a knot soliton which is formulated in a two-component superconductor. We investigate the effect of geometric constraints for multi-component superconductors, where the geometric constraint means that the system is compactified in one direction so that the current in this direction becomes vanishingly small. This corresponds to the gauge fixing in this direction. An unconventional magnetic field distribution takes place; here the unconventional means that the magnetic field is screened incompletely which would be called the anomalous Meissner effect. We argue that this anomalous behavior creates a massless gauge field.
format Preprint
id arxiv_https___arxiv_org_abs_2504_12073
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unconventional and anomalous magnetic field distribution in a bilayer superconductor with geometric constraints
Yanagisawa, Takashi
Superconductivity
We investigate the magnetic field distribution in multi-component superconductors. We examine a layered superconductor and a two-component one-layer superconductor. We evaluate the field distribution in the presence of a half-flux quantum vortex with a kink structure in the phase space of gap functions. We also examine the magnetic field distribution of a knot soliton which is formulated in a two-component superconductor. We investigate the effect of geometric constraints for multi-component superconductors, where the geometric constraint means that the system is compactified in one direction so that the current in this direction becomes vanishingly small. This corresponds to the gauge fixing in this direction. An unconventional magnetic field distribution takes place; here the unconventional means that the magnetic field is screened incompletely which would be called the anomalous Meissner effect. We argue that this anomalous behavior creates a massless gauge field.
title Unconventional and anomalous magnetic field distribution in a bilayer superconductor with geometric constraints
topic Superconductivity
url https://arxiv.org/abs/2504.12073