Experimental and Theoretical Study of Field-dependent Spin Splitting at Ferromagnetic Insulator-superconductor Interfaces

Overview

Journal Beilstein J Nanotechnol

Specialty Biotechnology

Date 2022 Aug 12

PMID 35957675

Authors

Peter Machon

Michael J Wolf

Detlef Beckmann

Wolfgang Belzig

Affiliations

Soon will be listed here.

Abstract

We present a combined experimental and theoretical work that investigates the magnetic proximity effect at a ferromagnetic insulator-superconductor (FI-S) interface. The calculations are based on the boundary condition for diffusive quasiclassical Green's functions, which accounts for arbitrarily strong spin-dependent effects and spin mixing angles. The resulting phase diagram shows a transition from a first-order to a second-order phase transition for large spin mixing angles. The experimentally found differential conductance of an EuS-Al heterostructure is compared with the theoretical calculation. With the assumption of a uniform spin mixing angle that depends on the externally applied field, we find good agreement between theory and experiment. The theory depends only on very few parameters, mostly specified by the experimental setup. We determine the effective spin of the interface moments as ≈ 0.74ℏ.

Citing Articles

Frontiers of nanoelectronics: intrinsic Josephson effect and prospects of superconducting spintronics.

Sidorenko A, Hahn H, Krasnov V Beilstein J Nanotechnol. 2023; 14:79-82.

PMID: 36761675 PMC: 9843234. DOI: 10.3762/bjnano.14.9.

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