Glassy dynamics in Ferromagnet/Antiferromagnet bilayers Público

Abstract

We demonstrate that thin polycrystalline films of antiferromagnet CoO and NiO, in bilayers with ferromagnetic Permalloy, exhibit slow power-law aging of their magnetization state. The aging characteristics are remarkably similar to those previously observed in thin epitaxial Fe(50) Mn(50) films, indicating that these behaviors are likely generic to ferromagnet/antiferromagnet bilayers. For our CoO samples, aging is observed over a wide temperature range in very thin film. In thicker CoO, aging effects become reduced at low temperatures. Aging entirely disappears for large CoO thicknesses. We also investigate the dependence of aging characteristics on temperature and magnetic history. Analysis shows that the observed behaviors are inconsistent with the Neel-Arrhenius model of thermal activation, and are instead indicative of cooperative aging of the antiferromagnet. Our NiO sample exhibits power law aging over a wide range of temperatures. The temperature dependence of the temporal evolution rate exhibits two qualitatively different regimes, with a crossover at the exchange bias blocking temperature. Our results show that the exchange bias blocking temperature represents a transition between two different aging dynamics, reminiscent of the glass transition in amorphous materials. Our results provide new insights into the mechanisms controlling the stationary states and dynamics of ferromagnet/antiferromagnet bilayers, and potentially other frustrated magnetic systems.

Table of Contents

I. Introduction. 1

II. Experiment. 4

III. Summary and Conclusions. 15

Appendix A. 17

Appendix B. 18

Reference. 24

About this Honors Thesis

Rights statement

• Permission granted by the author to include this thesis or dissertation in this repository. All rights reserved by the author. Please contact the author for information regarding the reproduction and use of this thesis or dissertation.

School	Emory College
Department	Physics
Degree	BS
Submission	Honors Thesis
Language	English
Research Field	Physics, General Physics, Condensed Matter Physics, Electricity and Magnetism
Palavra-chave	magnetic aging Exchange bias Magnetoresistance Complex system
Committee Chair / Thesis Advisor	Urazhdin, Sergei , Emory University
Committee Members	Rodl, Vojtech, Emory University Brody, Jed, Emory University Boettcher, Stefan, Emory University

Última modificação

Primary PDF

Thumbnail	Title	Date Uploaded	Actions
	Glassy dynamics in Ferromagnet/Antiferromagnet bilayers ()	2018-08-28 15:41:59 -0400	Press to Select an action Download

Supplemental Files

Thumbnail	Title	Date Uploaded	Actions