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Proximity-induced equilibrium supercurrent and perfect superconducting diode effect due to band asymmetry

Published 17 Oct 2022 in cond-mat.supr-con, cond-mat.mtrl-sci, and cond-mat.str-el | (2210.09346v2)

Abstract: We theoretically investigate the consequences of proximity-induced conventional superconductivity in metals that break time-reversal and inversion symmetries through their energy dispersion. We discover behaviors impossible in an isolated superconductor such as an equilibrium supercurrent that apparently violates a no-go theorem and, at suitable topological defects, non-conservation of electric charge reminiscent of the chiral anomaly. The equilibrium supercurrent is expected to be trainable by a helical electromagnetic field in the normal state. Remarkably, if the band asymmetry exceeds the critical current of the parent superconductor in appropriate units, we predict a perfect superconducting diode effect with diode coefficient unity. We propose toroidal metals such as UNi$_{4}$B and metals with directional scalar spin chiral order as potential platforms.

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