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PUBLICATIONS

Topological Control of Magnetic Textures

Published

Author(s)

Hanu Arava, Frank P. Barrows, Mark D. Stiles, Amanda K. Petford-Long

Abstract

A micromagnetic study is carried out on the role of using topology to stabilize different magnetic textures, such as a vortex or an anti-vortex state, in a magnetic heterostructure consisting of a Permalloy disk coupled to a set of nanomagnetic bars. The topological boundary condition is set by the stray field contributions of the nanomagnet bars and thus by their magnetization configuration, and can be described by a discretized winding number that will be matched by the winding number of the topological state set in the disk. The lowest number of nanomagnets that defines a suitable boundary is four, and we identify a critical inter- nanomagnet angle of 225o between two nanomagnets, at which the boundary fails because the winding number of the nanomagnet configuration no longer controls that of the disk magnetization. The boundary also fails when the disk-nanomagnets separation is > 50 nm and for disk diameters > 480 nm. Finally, we provide preliminary experimental evidence from magnetic force microscopy studies in which we demonstrate that an energetically unstable, anti-vortex- like structure can indeed be stabilized in a Permalloy disk, provided that the appropriate topological conditions are set
Citation
Physical Review B
Volume
103
Issue
6
Pub Type
Journals

Download Paper

https://dx.doi.org/10.1103/PhysRevB.103.L060407
Local Download

Keywords

Micromagnetics, magnetic textures, vortex, magnetostatic coupling, anti-vortex
Nanomagnetics

Citation

Arava, H. , Barrows, F. , Stiles, M. and Petford-Long, A. (2021), Topological Control of Magnetic Textures, Physical Review B, [online], https://dx.doi.org/10.1103/PhysRevB.103.L060407, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=931400 (Accessed April 30, 2024)

Created February 25, 2021, Updated October 12, 2021