Josephson dynamics at high transmissions: Perturbation theory

Abstract

We theoretically analyze Josephson dynamics of superconducting weak links with transmissions T not much smaller than unity at subgap bias voltages V. Employing the effective action approach combined with the Keldysh technique we develop a regular perturbation theory in R=1- T and derive the first order correction to the current across the weak link which consists of two different contributions. One of them is negative effectively corresponding to a decrease of the excess current at small V due to breaking of the multiple Andreev reflection cycle by normal reflection for some subgap quasiparticles. These quasiparticles, in turn, generate the second -- Josephson-like -- contribution to the current which increases with decreasing V down to very small voltages where the perturbation theory in R ceases to be valid. Some of the above features are not reproduced within the physical picture involving Landau-Zener tunneling between subgap Andreev states.