Coherent transport and nonlocality in mesoscopic SNS junctions: anomalous magnetic interference patterns

Details Coherent transport and nonlocality in mesoscopic SNS junctions: anomalous magnetic interference patterns Coherent transport and nonlocality in mesoscopic SNS junctions: anomalous magnetic interference patterns

1998-05-08

arxiv.org/abs/cond-mat/9805104v4

Physics

Condensed Matter

Superconductivity

13 pages, 7 figures. New results on diffusive mesoscopic SNS junctions included. Typo in Eq.(27) corrected. Contribution to th

Scientific paper

10.1006/spmi.1999.0731

We show that in {\em ballistic} mesoscopic SNS junctions the period of critical current vs. magnetic flux dependence (magnetic interference pattern), $I_c(\Phi)$, changes {\em continuously and non-monotonically} from $\Phi_0$ to $2\Phi_0$ as the length-to-width ratio of the junction grows, or temperature drops. In {\em diffusive} mesoscopic junctions the change is even more drastic, with the first zero of $I_c(\Phi)$ appearing at $3\Phi_0$. The effect is a manifestation of nonlocal relation between the supercurrent density and superfluid velocity in the normal part of the system, with the characteristic scale $\xi_T = \hbar v_F/2\pi k_BT$ (ballistic limit) or $\tilde{\xi}_T = \sqrt{\hbar D/2\pi k_BT}$ (diffusive limit), the normal metal coherence length, and arises due to restriction of the quasiparticle phase space near the lateral boundaries of the junction. It explains the $2\Phi_0$-periodicity recently observed by Heida et al. (Phys. Rev. B {\bf 57}, R5618 (1998)). We obtained explicit analytical expressions for the magnetic interference pattern for a junction with an arbitrary length-to-width ratio. Experiments are proposed to directly observe the $\Phi_0\to 2\Phi_0$- and $\Phi_0\to 3\Phi_0$-transitions.

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