Ballistic graphene Josephson junctions from the short to the long regime

Abstract

We investigate the critical current, IC, of ballistic Josephson junctions made of encapsulated graphene/boron-nitride heterostructures. We observe a crossover from the short to the long junction regimes as the length of the device increases. In long ballistic junctions, IS is found to scale as (-kbT/δ E). The extracted energies δ E are independent of the carrier density and proportional to the level spacing of the ballistic cavity, as determined from Fabry-Perot oscillations of the junction normal resistance. As T→ 0 the critical current of a long (or short) junction saturates at a level determined by the product of δ E (or ) and the number of the junction's transversal modes.