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Main Authors: Liu, Wen-Ting, Zhao, Shu-Chang, Cheng, Qiang, Sun, Qing-Feng
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.03801
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_version_ 1866911138181021696
author Liu, Wen-Ting
Zhao, Shu-Chang
Cheng, Qiang
Sun, Qing-Feng
author_facet Liu, Wen-Ting
Zhao, Shu-Chang
Cheng, Qiang
Sun, Qing-Feng
contents We study the Josephson effects in the superconductor/two-dimensional Weyl nodal line semimetal/superconductor junctions using the Green's function method. When the Rashba spin-orbit coupling and an external magnetic field coexist in the semimetal, the symmetries protecting the reciprocity of supercurrent can be broken and the Josephson diode effect with the nonreciprocity of supercurrent can be realized. A high efficiency exceeding $40\%$ can be achieved with the experimentally accessible values of the magnetic field and the Rashba spin-orbit coupling. The diode efficiency can be easily controlled by the direction and magnitude of the field and the strength of the spin-orbit coupling. When the spin-orbit coupling is absent or the external field is absent, the Josephson diode effect vanishes but the current-phase difference relations still show strong dependence on the field or the coupling. The tunable $0$-$π$ transition and the switch effect of supercurrent in the junctions can be formed if the direction of the field is rotated or the magnitude of the field and the strength of the coupling are changed. The obtained Josephson diode effect, the $0$-$π$ transition and the switch effect of supercurrent are helpful in the design of the quantum devices based on nodal line semimetals.
format Preprint
id arxiv_https___arxiv_org_abs_2509_03801
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Controllable Josephson diode effect, $0$-$π$ transition and switch effect in the superconductor/two-dimensional Weyl nodal line semimetal/superconductor junctions
Liu, Wen-Ting
Zhao, Shu-Chang
Cheng, Qiang
Sun, Qing-Feng
Superconductivity
We study the Josephson effects in the superconductor/two-dimensional Weyl nodal line semimetal/superconductor junctions using the Green's function method. When the Rashba spin-orbit coupling and an external magnetic field coexist in the semimetal, the symmetries protecting the reciprocity of supercurrent can be broken and the Josephson diode effect with the nonreciprocity of supercurrent can be realized. A high efficiency exceeding $40\%$ can be achieved with the experimentally accessible values of the magnetic field and the Rashba spin-orbit coupling. The diode efficiency can be easily controlled by the direction and magnitude of the field and the strength of the spin-orbit coupling. When the spin-orbit coupling is absent or the external field is absent, the Josephson diode effect vanishes but the current-phase difference relations still show strong dependence on the field or the coupling. The tunable $0$-$π$ transition and the switch effect of supercurrent in the junctions can be formed if the direction of the field is rotated or the magnitude of the field and the strength of the coupling are changed. The obtained Josephson diode effect, the $0$-$π$ transition and the switch effect of supercurrent are helpful in the design of the quantum devices based on nodal line semimetals.
title Controllable Josephson diode effect, $0$-$π$ transition and switch effect in the superconductor/two-dimensional Weyl nodal line semimetal/superconductor junctions
topic Superconductivity
url https://arxiv.org/abs/2509.03801