Control of the Walker breakdown by periodical magnetic wire-width modulation
Lozhkina O, Reeve RM, Froemter R, Klaeui M (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 131
Article Number: 233902
Journal Issue: 23
DOI: 10.1063/5.0092222
Abstract
Suppression of the Walker breakdown in confined wires is key to improving the operation and reliability of magnetic domain-wall-based devices, including logic, memory, and sensor applications. Here, via micromagnetic simulations, we demonstrate that periodical wire-width modulation with suitable geometric parameters can fully suppress the Walker breakdown of a field-driven domain wall, conserving its spin structure in the whole operating field range of a device. Key differences in the efficacy of the wire-width modulation are observed for wires with different widths and thicknesses such that different domain wall states are energetically stable. In particular, the approach is found to be effective in expanding the field-operating window of a device in the case of smaller wire widths and thicknesses (below 150 nm wide and 15 nm thick), whereas in larger wires, the advantages from the suppression in the Walker breakdown are counteracted by the increase in domain wall pinning and the reduction in the nucleation field for new domain walls. Simulations on intersecting magnetic wires prove the importance of suppression of the Walker breakdown. Since the domain wall behavior is chirality dependent, introducing periodical wire-width modulation conserves the spin structure, thus reducing stochasticity of the domain wall propagation.
Involved external institutions
Germany (DE)How to cite
APA:
Lozhkina, O., Reeve, R.M., Froemter, R., & Klaeui, M. (2022). Control of the Walker breakdown by periodical magnetic wire-width modulation. Journal of Applied Physics, 131(23). https://dx.doi.org/10.1063/5.0092222
MLA:
Lozhkina, Olga, et al. "Control of the Walker breakdown by periodical magnetic wire-width modulation." Journal of Applied Physics 131.23 (2022).
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