Observation of superconducting diode effect in antiferromagnetic Mott insulator $\alpha$-RuCl$_3$

TL;DR

This study demonstrates the superconducting diode effect in a heterostructure of antiferromagnetic Mott insulator $ extalpha$-RuCl$_3$ and NbSe$_2$, revealing nonreciprocal critical currents induced by proximity effects and magnetic field orientation.

Contribution

It provides the first experimental observation of the superconducting diode effect in $ extalpha$-RuCl$_3$, highlighting the role of Ising-type spin-orbit coupling in nonreciprocal superconductivity.

Findings

Superconducting diode effect observed in $ extalpha$-RuCl$_3$/NbSe$_2$ heterostructure.

Asymmetry in critical currents under magnetic field below 70 mT.

Effect is dependent on out-of-plane magnetic field orientation.

Abstract

Nonreciprocal superconductivity, also called as superconducting diode effect that spontaneously breaks time-reversal symmetry, is characterized by asymmetric critical currents under opposite applied current directions. This distinct state unveils a rich ore of intriguing physical properties, particularly in the realm of nanoscience application of superconductors. Towards the experimental realization of superconducting diode effect, the construction of two-dimensional heterostructures of magnets and $s$-wave superconductors is considered to be a promising pathway. In this study, we present our findings of superconducting diode effect manifested in the magnetic Mott insulator $\alpha$-RuCl$_3$. This phenomenon is induced by the proximity effect within a van der Waals heterostructure, consisting of thin $\alpha$-RuCl$_3$/NbSe$_2$ flakes. Through transport property measurements, we have confirmed a weak superconducting gap of 0.2 meV, which is significantly lower than the intrinsic gap of NbSe$_2$(1.2 meV). Upon the application of a weak magnetic field below 70 mT, we observed an asymmetry in the critical currents under positive and negative applied currents. This observation demonstrates a typical superconducting diode effect in the superconducting $\alpha$-RuCl$_3$. The superconducting diode effect and nonreciprocal resistance are observed exclusively when the magnetic field is aligned out-of-plane. This suggests that an Ising-type spin-orbit coupling in the superconducting $\alpha$-RuCl$_3$ may be responsible for the mechanism. Our findings furnish a platform for the exploration of superconducting diode effect via the artificial construction of heterostructures.