Multiple Andreev reflections in two-dimensional Josephson junctions with broken time-reversal symmetry

Abstract

Andreev bound states (ABS) occur in Josephson junctions when the total phase of the Andreev and normal reflections is a multiple of 2π. In ballistic junctions with an applied voltage bias, a quasi-particle undergoes multiple Andreev reflections before entering the leads, resulting in peaks in the current-voltage I(V) curve. Here we present a general model for Josephson junctions with spin-active interlayers i.e., magnetic or topological materials with broken time-reversal symmetry. We investigate how ABS change the peak positions and shape of I(V), which becomes asymmetric for a single incident angle. We show how the angle-resolved I(V) curve becomes a spectroscopic tool for the chirality and degeneracy of ABS.