Link between supercurrent diode and anomalous Josephson effect revealed by gate-controlled interferometry
Abstract
In Josephson diodes the asymmetry between positive and negative current branch of the current-phase relation leads to a polarity-dependent critical current and Josephson inductance. The supercurrent nonreciprocity can be described as a consequence of the anomalous Josephson effect -- a -shift of the current-phase relation -- in multichannel ballistic junctions with strong spin-orbit interaction. In this work, we simultaneously investigate -shift and supercurrent diode efficiency on the same Josephson junction by means of a superconducting quantum interferometer. By electrostatic gating, we reveal a direct link between -shift and diode effect. Our findings show that the supercurrent diode effect mainly results from magnetochiral anisotropy induced by spin-orbit interaction in combination with a Zeeman field.
Cite
@article{arxiv.2308.01061,
title = {Link between supercurrent diode and anomalous Josephson effect revealed by gate-controlled interferometry},
author = {Simon Reinhardt and Tim Ascherl and Andreas Costa and Johanna Berger and Sergei Gronin and Geoffrey C. Gardner and Tyler Lindemann and Michael J. Manfra and Jaroslav Fabian and Denis Kochan and Christoph Strunk and Nicola Paradiso},
journal= {arXiv preprint arXiv:2308.01061},
year = {2024}
}
Comments
15 pages, 8 figures