Low-energy properties of two-dimensional magnetic nanostructures: interparticle interactions and disorder effects

Details Low-energy properties of two-dimensional magnetic nanostructures: interparticle interactions and disorder effects Low-energy properties of two-dimensional magnetic nanostructures: interparticle interactions and disorder effects

2003-10-14

arxiv.org/abs/cond-mat/0310303v1

New J. Phys. 5, 68 (2003)

Physics

Condensed Matter

Disordered Systems and Neural Networks

23 pages, 7 figures

Scientific paper

10.1088/1367-2630/5/1/368

The low-energy properties of two-dimensional ensembles of dipole-coupled magnetic nanoparticles are studied as function of structural disorder and particle coverage. Already small deviations from a square particle arrangement lift the degeneracies of the microvortex magnetic configuration, and result in a strongly noncollinear magnetic order of the particle ensemble. The energy distribution of metastable states is determined. For a low degree of disorder a strongly asymmetric shape with a pronounced peak of the ground state energy results. In contrast, for a strong disorder a Gaussian-like distribution is obtained. The average dipole coupling energy $\bar E_\mathrm{dip}$ decreases with increasing structural disorder. The role of vacancies has been studied for a square particle array by determining the angular distribution of the preferred microvortex angle as function of the vacancy concentration. Indications for a preferred angular direction along the axial as well as along the diagonal directions of the square array are revealed. A corresponding investigation for disturbed square arrays results in a different angular distribution. The effect of dipole-quadrupole corrections resulting from the finite size of the particles is quantified.

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