Critical current–gate voltage characteristics in short- and long-gated Josephson junctions

Abstract

We studied the gate controllability of the critical current and the normal resistance in superconductor–semiconductor–superconductor junctions. The junctions used a two-dimensional electron gas (2DEG) in the InAs-inserted InAlAs/InGaAs heterostructure. It is shown that the interface barrier between the superconductor and the 2DEG affects the controllability in a short-gated junction. In a split-gated junction, the critical current–normal resistance product is almost constant against gate voltage. This is due to quantization of both the critical current and the conductance in a narrow and short semiconductor channel. The long-gated junction in the quasi-ballistic transport regime shows rapid suppression of the critical current by gate voltage.