Cell-dynamical simulation of magnetic hysteresis in the two-dimensional Ising system

1 April 1992

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 45 (14) , 7828-7831
https://doi.org/10.1103/physrevb.45.7828

Abstract

We present results from numerical simulations using a ‘‘cell-dynamical system’’ to obtain solutions to the time-dependent Ginzburg-Landau equation for a scalar, two-dimensional (2D), (

Φ^{2}

)^{2}

model in the presence of a sinusoidal external magnetic field. Our results confirm a recent scaling law proposed by Rao, Krishnamurthy, and Pandit [Phys. Rev. B 42, 856 (1990)], and are also in excellent agreement with recent Monte Carlo simulations of hysteretic behavior of 2D Ising spins by Lo and Pelcovits [Phys. Rev. A 42, 7471 (1990)].

Keywords

This publication has 10 references indexed in Scilit:

Ising model in a time-dependent magnetic field
Physical Review A, 1990
Magnetic hysteresis in two model spin systems
Physical Review B, 1990
Dynamic phase transition in the kinetic Ising model under a time-dependent oscillating field
Physical Review A, 1990
Hysteresis in model spin systems
Journal of Physics: Condensed Matter, 1989
Study of phase-separation dynamics by use of cell dynamical systems. II. Two-dimensional demonstrations
Physical Review A, 1988
Study of phase-separation dynamics by use of cell dynamical systems. I. Modeling
Physical Review A, 1988
First-passage times and hysteresis in multivariable stochastic processes: The two-mode ring laser
Physical Review A, 1984
Observability of hysteresis in first-order equilibrium and nonequilibrium phase transitions
Physical Review A, 1981
Domain Formation and Domain Wall Motions in Ferroelectric BaTi $O_{3}$ Single Crystals
Physical Review B, 1954
Double Hysteresis Loop of BaTi $O_{3}$ at the Curie Point
Physical Review B, 1953