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Main Authors: Misu, Yutaro, Tamura, Shun, Tanaka, Yukio, Hoshino, Shintaro
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2301.08426
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author Misu, Yutaro
Tamura, Shun
Tanaka, Yukio
Hoshino, Shintaro
author_facet Misu, Yutaro
Tamura, Shun
Tanaka, Yukio
Hoshino, Shintaro
contents The $η$-pairing is a type of Cooper pairing state in which the phase of the superconducting order parameter is aligned in a staggered manner, in contrast to the usual BCS superconductors with a spatially uniform phase. In this study, we search for a characteristic $η$-pairing state in a triangular lattice where a simple staggered alignment of the phase is not possible. As an example, we consider the attractive Hubbard model on both the square and triangular lattices under strong external Zeeman field. Using the mean-field approximation, we have identified several $η$-pairing states. Additionally, we have examined the electromagnetic stability of the pairing state by calculating the Meissner kernel. Odd-frequency pairing plays a crucial role in achieving diamagnetic response if the electrons experience a staggered superconducting phase during the propagation of current.
format Preprint
id arxiv_https___arxiv_org_abs_2301_08426
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle $η$-pairing on bipartite and non-bipartite lattices
Misu, Yutaro
Tamura, Shun
Tanaka, Yukio
Hoshino, Shintaro
Superconductivity
The $η$-pairing is a type of Cooper pairing state in which the phase of the superconducting order parameter is aligned in a staggered manner, in contrast to the usual BCS superconductors with a spatially uniform phase. In this study, we search for a characteristic $η$-pairing state in a triangular lattice where a simple staggered alignment of the phase is not possible. As an example, we consider the attractive Hubbard model on both the square and triangular lattices under strong external Zeeman field. Using the mean-field approximation, we have identified several $η$-pairing states. Additionally, we have examined the electromagnetic stability of the pairing state by calculating the Meissner kernel. Odd-frequency pairing plays a crucial role in achieving diamagnetic response if the electrons experience a staggered superconducting phase during the propagation of current.
title $η$-pairing on bipartite and non-bipartite lattices
topic Superconductivity
url https://arxiv.org/abs/2301.08426