Magnetic anisotropy of elongated thin ferromagnetic nano-islands for artificial spin ice arrays

Date

2012-09-10

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Abstract

The energetics of thin elongated ferromagnetic nano-islands is considered for some different shapes, aspect ratios, and applied magnetic field directions. These nano-island particles are important for artificial spin-ice materials. For low temperature, the magnetic internal energy of an individual particle is evaluated numerically as a function of the direction of a particle’s net magnetization. This leads to estimations of effective anisotropy constants for (1) the easy axis along the particle’s long direction, and (2) the hard axis along the particle’s thin direction. A spin relaxation algorithm together with fast Fourier transform for the demagnetization field is used to solve the micromagnetics problem for a thin system. The magnetic hysteresis is also found. The results indicate some possibilities for controlling the equilibrium and dynamics in spin-ice materials by using different island geometries.

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Keywords

Magnetic anisotropy, Magnetic hysteresis, Micromagnetics, Spin-ice, Effective potential

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