Transient Non-Collinear Magnetic State for All-Optical Magnetization Switching

Overview

Journal Adv Sci (Weinh)

Specialty Biomedical Engineering

Date 2023 Nov 8

PMID 37939279

Authors

Sergii Parchenko

Antoni Frej

Hiroki Ueda

Robert Carley

Laurent Mercadier

Natalia Gerasimova

Giuseppe Mercurio

Justine Schlappa

Alexander Yaroslavtsev

Naman Agarwal

Rafael Gort

Andreas Scherz

Anatoly Zvezdin

Andrzej Stupakiewicz

Urs Staub

Affiliations

Soon will be listed here.

Abstract

Resonant absorption of a photon by bound electrons in a solid can promote an electron to another orbital state or transfer it to a neighboring atomic site. Such a transition in a magnetically ordered material could affect the magnetic order. While this process is an obvious road map for optical control of magnetization, experimental demonstration of such a process remains challenging. Exciting a significant fraction of magnetic ions requires a very intense incoming light beam, as orbital resonances are often weak compared to above-band-gap excitations. In the latter case, a sizeable reduction of the magnetization occurs as the absorbed energy increases the spin temperature, masking the non-thermal optical effects. Here, using ultrafast X-ray spectroscopy, this work is able to resolve changes in the magnetization state induced by resonant absorption of infrared photons in Co-doped yttrium iron garnet, with negligible thermal effects. This work finds that the optical excitation of the Co ions affects the two distinct magnetic Fe sublattices differently, resulting in a transient non-collinear magnetic state. The present results indicate that the all-optical magnetization switching (AOS) most likely occurs due to the creation of a transient, non-collinear magnetic state followed by coherent spin rotations of the Fe moments.

Citing Articles

Transient Non-Collinear Magnetic State for All-Optical Magnetization Switching.

Parchenko S, Frej A, Ueda H, Carley R, Mercadier L, Gerasimova N Adv Sci (Weinh). 2023; 10(36):e2302550.

PMID: 37939279 PMC: 10754071. DOI: 10.1002/advs.202302550.

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Parchenko S, Frej A, Ueda H, Carley R, Mercadier L, Gerasimova N . Transient Non-Collinear Magnetic State for All-Optical Magnetization Switching. Adv Sci (Weinh). 2023; 10(36):e2302550. PMC: 10754071. DOI: 10.1002/advs.202302550. View