Majorana splittings from critical currents in Josephson junctions

Jorge Cayao, Pablo San-José, Annica Black-Schaffer, Ramón Aguado, Elsa Prada

Published 2017-07-17Version 1

The superconducting proximity effect in semiconductor nanowires with strong Rashba spin-orbit coupling has been shown to give rise to emergent Majorana bound states under external Zeeman fields. Here we theoretically investigate how this exotic physics manifests in Josephson junctions based on such nanowires. In particular, we focus on critical currents in the short junction limit ($L_{\rm N}\ll \xi$, where $L_{\rm N}$ is the junction length and $\xi$ is the superconducting coherence length) and show that they contain important information about nontrivial topology and Majoranas. This includes signatures of the gap inversion at the topological transition and an oscillatory pattern that originates from Majorana overlaps. Interestingly, this pattern can be modified by tuning the transmission across the junction, thus providing an alternative detection scheme of Majoranas and their energy splittings beyond standard tunnel spectroscopy experiments, while offering further tunability by virtue of the Josephson effect.