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Journal of Applied Physics
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Observation of switching of magnetic particle arrays with weak dipole interaction field effects

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Abstract

We have measured the subtle changes in magnetic reversal of weakly interacting arrays of submicrometer magnetic particles as a function of particle spacing and interpreted the data within the context of a model assuming a normal distribution of switching fields plus dipole fields between particles. The measurements were performed on a Kerr magnetometer and showed the changes in switching characteristics of the particle array as a function of array spacing in the two in-plane directions. The Monte Carlo calculations included the effect of changing particle pitch in two in-plane directions and explained the characteristic change in sharpness of the switching transition alternatively as a frustration or as an enhanced sharpness due to cascading transitions, depending on whether the hard- or easy-axis dipole coupling is dominant. This method is extensible to nanoscale particles and provides an estimate of the moment of the particle, a measurement which is difficult to obtain via other experimental methods. © 2005 American Institute of Physics.

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Journal of Applied Physics

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