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Supercurrent decay in ballistic magnetic Josephson junctions

Hervé Ness, Ivan Sadovskyy, Andrey E. Antipov, Mark van Schilfgaarde, Roman M. Lutchyn

2022npj Computational Materials24 citationsDOIOpen Access PDF

Abstract

Abstract We investigate transport properties of ballistic magnetic Josephson junctions and establish that suppression of supercurrent is an intrinsic property of the junctions, even in absence of disorder. By studying the role of ferromagnet thickness, magnetization, and crystal orientation we show how the supercurrent decays exponentially with thickness and identify two mechanisms responsible for the effect: (i) large exchange splitting may gap out minority or majority carriers leading to the suppression of Andreev reflection in the junction, (ii) loss of synchronization between different modes due to the significant dispersion of the quasiparticle velocity with the transverse momentum. Our results for Nb/Ni/Nb junctions are in good agreement with recent experimental studies. Our approach combines density functional theory and the Bogoliubov-de Gennes model and opens a path for material composition optimization in magnetic Josephson junctions and superconducting magnetic spin valves.

Topics & Concepts

Josephson effectSupercurrentCondensed matter physicsAndreev reflectionPhysicsQuasiparticlePi Josephson junctionSuperconductivityFerromagnetismBallistic conductionQuantum mechanicsElectronPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaMagnetic and transport properties of perovskites and related materials
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