On the Selfconsistent Theory of Josephson Effect in Ballistic Superconducting Microconstrictions

Abstract

The microscopic theory of current carrying states in the ballistic superconducting microchannel is presented. The effects of the contact length L on the Josephson current are investigated. For the temperatures T close to the critical temperature Tc the problem is treated selfconsistently, with taking into account the distribution of the order parameter (r) inside the contact. The closed integral equation for in strongly inhomogeneous microcontact geometry (L 0, 0 is the coherence length at T=0) replaces the differential Ginzburg-Landau equation. The critical current Ic(L) is expressed in terms of solution of this integral equation. The limiting cases of L 0 and L 0 are considered. With increasing length L the critical current decreases, although the ballistic Sharvin resistance of the contact remains the same as at L=0. For ultra short channels with L aD (aD vF/ωD, ωD is the Debye frequency) the corrections to the value of critical current Ic(L=0) are sensitive to the strong coupling effects.

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