Edge effects in the magnetic interference pattern of a ballistic SNS junction

Abstract

We investigate the Josephson critical current Ic() of a wide superconductor-normal metal-superconductor (SNS) junction as a function of the magnetic flux threading it. Electronic trajectories reflected from the side edges alter the function Ic() as compared to the conventional Fraunhofer-type dependence. At weak magnetic fields, B 0/d2, the edge effect lifts zeros in Ic() and gradually shifts the minima of that function toward half-integer multiples of the flux quantum. At B>0/d2, the edge effect leads to an accelerated decay of the critical current Ic() with increasing . At larger fields, eventually, the system is expected to cross into a regime of "classical" mesoscopic fluctuations that is specific for wide ballistic SNS junctions with rough edges.