Spin-switch Josephson junctions with magnetically tunable $\sin(\delta\varphi/n)$ shape
Abstract
With a combination of simple analytical arguments and extensive numerical simulations, we theoretically propose a Josephson junction with superconductors where the current-phase relation can be toggled in situ between a and shape using an applied magnetic field. Focusing in particular on the case , we show that by using realistic system parameters such as unequal interface transparencies, the -shaped solution retains its -periodicity due to discontinuities at . Moreover, we demonstrate that as one toggles between the - and -shaped solutions, the system acts as an on--off switch, and can acheive more than two orders of magnitude difference between the supercurrent in the on and off states. Finally, we argue that the same approach can be generalized to switchable junctions for arbitrary integers~, which we motivate by analytically solving the Josephson equations for double- and triple-barrier junctions.
Cite
@article{arxiv.1612.03177,
title = {Spin-switch Josephson junctions with magnetically tunable $\sin(\delta\varphi/n)$ shape},
author = {Jabir Ali Ouassou and Jacob Linder},
journal= {arXiv preprint arXiv:1612.03177},
year = {2017}
}
Comments
7 pages, 7 figures, revised version