Kinetic Ising system in an oscillating external field: Stochastic resonance and residence-time distributions
- 15 April 1997
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 81 (8) , 5597-5599
- https://doi.org/10.1063/1.364611
Abstract
Experimental, analytical, and numerical results suggest that the mechanism by which a uniaxial single-domain ferromagnet switches after sudden field reversal depends on the field magnitude and the system size. Here we report new results on how these distinct decay mechanisms influence hysteresis in a two-dimensional nearest-neighbor kinetic Ising model. We present theoretical predictions supported by numerical simulations for the frequency dependence of the probability distributions for the hysteresis-loop area and the period-averaged magnetization, and for the residence-time distributions. The latter suggest evidence of stochastic resonance for small systems in moderately weak oscillating fields.Comment: Includes updated results for Fig.2 and minor text revisions to the abstract and text for claritAll Related Versions
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