Ultrafast Magnetization Enhancement in Metallic Multilayers Driven by Superdiffusive Spin Current

Overview

Journal Nat Commun

Specialty Biology

Date 2012 Sep 6

PMID 22948819

Citations 45

Authors

Dennis Rudolf

Chan La-O-Vorakiat

Marco Battiato

Roman Adam

Justin M Shaw

Emrah Turgut

Pablo Maldonado

Stefan Mathias

Patrik Grychtol

Hans T Nembach

Thomas J Silva

Martin Aeschlimann

Henry C Kapteyn

Margaret M Murnane

Claus M Schneider

Peter M Oppeneer

Affiliations

Soon will be listed here.

Abstract

Uncovering the physical mechanisms that govern ultrafast charge and spin dynamics is crucial for understanding correlated matter as well as the fundamental limits of ultrafast spin-based electronics. Spin dynamics in magnetic materials can be driven by ultrashort light pulses, resulting in a transient drop in magnetization within a few hundred femtoseconds. However, a full understanding of femtosecond spin dynamics remains elusive. Here we spatially separate the spin dynamics using Ni/Ru/Fe magnetic trilayers, where the Ni and Fe layers can be ferro- or antiferromagnetically coupled. By exciting the layers with a laser pulse and probing the magnetization response simultaneously but separately in Ni and Fe, we surprisingly find that optically induced demagnetization of the Ni layer transiently enhances the magnetization of the Fe layer when the two layer magnetizations are initially aligned parallel. Our observations are explained by a laser-generated superdiffusive spin current between the layers.

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