I-V characteristics of SNS junctions with a multivalley normal region

Abstract

In multivalley conductors the inter-valley relaxation time τv and the inelastic relaxation time τin may be significantly longer than the intra-valley momentum relaxation time τ. We show that this separation of time scales has dramatic effects on the I-V characteristics of SNS junctions with a multivalley normal region. We generalize the Larkin-Ovchinnikov equations describing superconducting kinetics to the case of multivalley superconductors. We use this generalization to obtain a kinetic description of multivalley SNS junctions. We find that at constant voltage bias V, the current I(V) is nonmonotonic; it exhibits two peaks of similar magnitude Imax,1 Imax,2 at V1 (eτin)-1 and V2 (eτv)-1, which may greatly exceed the critical current Ic(T). At constant current bias I we find that in a wide interval, Ic(T) < I Ijump, the nonlinear resistance of the junction is controlled by the long relaxation times and may be several orders of magnitude smaller than the normal state resistance.