Reversal Modes of Simulated Iron Nanopillars in an Obliquely Oriented   Field

S.H. Thompson; G. Brown; P.A. Rikvold

arXiv:cond-mat/0409277·cond-mat.stat-mech·May 23, 2007

Reversal Modes of Simulated Iron Nanopillars in an Obliquely Oriented Field

S.H. Thompson, G. Brown, P.A. Rikvold

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TL;DR

This paper uses stochastic micromagnetic simulations to analyze how magnetic nanopillars switch states under highly misaligned magnetic fields, revealing two distinct decay modes with different lifetimes and magnetization behaviors.

Contribution

It introduces a detailed simulation-based analysis of reversal modes in obliquely oriented magnetic nanopillars, highlighting the existence of two distinct decay pathways.

Findings

01

Two decay modes with different lifetimes identified

02

Distinct transverse magnetization components in each mode

03

Switching behavior depends on field orientation

Abstract

Stochastic micromagnetic simulations are employed to study switching in three-dimensional magnetic nanopillars exposed to highly misaligned fields. The switching appears to proceed through two different decay modes, characterized by very different average lifetimes and different average values of the transverse magnetization components.

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