Abstract
Dynamic magnetic properties of the kinetic spin-1 Ising system on a triangular lattice are investigated by utilizing the mean field theory based on Glauber-type stochastic dynamics. In particular, we study the time variations of average order parameters and thermal behaviors of the dynamic magnetizations and present the dynamic phase diagrams. We also study the effects of the crystal field and the frequency of the oscillating external magnetic field on the dynamic phase diagrams. It is observed that the dynamic phase diagrams display richer dynamic critical behavior for high values of frequency and low values of crystal field.
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