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Direct calculation of the attempt frequency of magnetic structures using the finite element method

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arxiv 1012.5189 v1 pith:D2ISDWNX submitted 2010-12-23 cond-mat.mtrl-sci physics.comp-ph

Direct calculation of the attempt frequency of magnetic structures using the finite element method

classification cond-mat.mtrl-sci physics.comp-ph
keywords methodmediaattemptcalculatecalculationelementfinitefrequency
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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A numerical implementation of the transition state theory (TST) is presented which can be used to calculate the attempt frequency $f_{0}$ of arbitrary shaped magnetic nanostructures. The micromagnetic equations are discretized using the finite element method. The climbing image nudged elastic band method is used to calculate the saddle point configuration, which is required for the calculation of $f_{0}$. Excellent agreement of the implemented numerical model and analytical solutions is obtained for single domain particles. The developed method is applied to compare $f_{0}$ for single phase and graded media grains of advanced recording media. $f_{0}$ is predicted to be comparable if the maximum anisotropy is the same in these two media types.

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