Paper Title
Dynamic Magnetic Hysteresis Behavior Of Blume-Capel Model Under The Presence Of An Oscillating Magnetic Field: The Path Probability Method Approach
Abstract
Recently, Ertaş and Keskin [Physica A 411, 42-52 (2014)] presented a study of the dynamic phase transition
(DPT) temperatures and the dynamic phase diagrams in the Blume-Capel model under an oscillating external magnetic field
by using the path probability method. They calculated the dynamic phase diagrams in three different planes and found that
the dynamic phase diagrams contain the paramagnetic (P), ferromagnetic (F) and the F + P mixed phases and exhibit the
dynamic tricritical and reentrant behaviors as well as a double critical end point and triple point depending on interaction
parameters. In this paper, we study dynamic magnetic hysteresis behavior of Blume-Capel model under the presence of an
oscillating magnetic field by using the path probability method approach. We also investigate the effect of the temperatures
and rate constants on dynamic hysteresis behaviors and found that results are in a good, quantitatively, agreement with some
theoretical and experimental results.
Keywords: The Blume-Capel model; Dynamic magnetic hysteresis; Dynamic phase transition; Path probability method.