Coulomb blockade-tuned indirect exchange in ferromagnetic nanostructures

V. I. Kozub; Y. M. Galperin; V. M. Vinokur

arXiv:1807.02051·cond-mat.mes-hall·July 6, 2018

Coulomb blockade-tuned indirect exchange in ferromagnetic nanostructures

V. I. Kozub, Y. M. Galperin, V. M. Vinokur

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TL;DR

This paper presents a theory for reversible magnetic state switching in ferromagnetic nanostructures controlled by Coulomb blockade tuning via gate voltage, enabling non-dissipative magnetic control.

Contribution

It introduces a novel mechanism for magnetic switching in FINF nanostructures that does not require dissipative current flow.

Findings

01

Switching controlled by Coulomb blockade strength

02

Reversible magnetic state manipulation without current

03

Potential for low-power magnetic devices

Abstract

We develop a theory of the reversible switching of the magnetic state of the ferromagnet-insulator-normal metalferromagnet (FINF) nanostructure. The switching is controlled by tuning the Coulomb blockade strength via the gate voltage on the normal metal granule. The proposed mechanism allows for realizing the switching without passing a dissipative current through the structure.

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