Josephson effects between the Kitaev ladder superconductors

Abstract

The two-leg ladder system consisting of the Kitaev chains is known to exhibit a richer phase diagram than that of the single chain. We theoretically investigate the variety of the Josephson effects between the ladder systems. We consider the Josephson phase difference θ between these two ladder systems as well as the phase difference φ between the parallel chains in each ladder system. The total energy of the junction at T = 0 is calculated by a numerical diagonalization method as functions of θ, φ, and also a transverse hopping t in the ladders. We find that, by controlling t and φ, the junction exhibits not only the fractional Josephson effect for the phase difference θ, but also the usual 0-junction and even π-junction properties.