Voltage-based Magnetization Switching and Reading in Magnetoelectric Spin-orbit Nanodevices

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Mar 1

PMID 38429273

Authors

Diogo C Vaz

Chia-Ching Lin

John J Plombon

Won Young Choi

Inge Groen

Isabel C Arango

Andrey Chuvilin

Luis E Hueso

Dmitri E Nikonov

Hai Li

Punyashloka Debashis

Scott B Clendenning

Tanay A Gosavi

Yen-Lin Huang

Bhagwati Prasad

Ramamoorthy Ramesh

Aymeric Vecchiola

Manuel Bibes

Karim Bouzehouane

Stephane Fusil

Vincent Garcia

Ian A Young

Felix Casanova

Affiliations

Soon will be listed here.

Abstract

As CMOS technologies face challenges in dimensional and voltage scaling, the demand for novel logic devices has never been greater, with spin-based devices offering scaling potential, at the cost of significantly high switching energies. Alternatively, magnetoelectric materials are predicted to enable low-power magnetization control, a solution with limited device-level results. Here, we demonstrate voltage-based magnetization switching and reading in nanodevices at room temperature, enabled by exchange coupling between multiferroic BiFeO and ferromagnetic CoFe, for writing, and spin-to-charge current conversion between CoFe and Pt, for reading. We show that, upon the electrical switching of the BiFeO, the magnetization of the CoFe can be reversed, giving rise to different voltage outputs. Through additional microscopy techniques, magnetization reversal is linked with the polarization state and antiferromagnetic cycloid propagation direction in the BiFeO. This study constitutes the building block for magnetoelectric spin-orbit logic, opening a new avenue for low-power beyond-CMOS technologies.

Citing Articles

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