CONDENSED MATTER

Minigap suppression in S(N/F)S junctions

P. A. Ioselevich^ab, D. A. Chuklanov<sup>a

a</sup> National Research University Higher School of Economics, Moscow, 101000 Russia
^b Landau Institute for Theoretical Physics, Russian Academy of Sciences, Moscow, 119334 Russia

Abstract: We consider a long diffusive Josephson junction where the weak link is a thin (normal metal (N)–ferromagnet (F)) bilayer (N and F form parallel links between superconductors (Ss)). We show that superconductivity in the weak link can be described by an effective one-dimensional Usadel equation containing a “diluted” exchange field as well as a weak depairing term that is caused by the inherent inhomogeneity of the bilayer. The depairing mechanism distinguishes the S(N/F)S system from an SFS junction and affects the density of states of the S(N/F)S junction. It results in the suppression of the minigap in the spin-resolved density of states. The depairing rate and the minigap are expressed in terms of geometrical parameters, the Thouless energy and the effective exchange field. The effective one-dimensional theory can be applied to various structures with thin inhomogeneous links and shows good agreement with numerical solutions of the original two-dimensional equations. We also discuss ways to reveal the predicted effect experimentally.

Received: 06.04.2021
Revised: 13.04.2021
Accepted: 15.04.2021

DOI: 10.31857/S1234567821100050

 English version: Journal of Experimental and Theoretical Physics Letters, 2021, 113:10, 631–637

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