M. Neek-Amal, R. Moussavi, H. R. Sepangi
Published 2006-04-28, updated 2006-09-26Version 2
A model based on microcanonical Monte Carlo method is used to study the application of the temperature gradient along a two-dimensional (2D) Ising system. We estimate the system size effects on thermal conductivity, $K$, for a nano-scale Ising layer with variable size. It is shown that $K$ scales with size as $ K=cL^\alpha$ where $\alpha$ varies with temperature. Both the Metropolis and Cruetz algorithms have been used to establish the temperature gradient. Further results show that the average demon energy in the presence of an external magnetic field is zero for low temperatures.
Comments: 10 pages, 7 figures, to appear in Physica A
Journal: Physica A 371 (2006) 424-432
Monte Carlo simulation of spin models with long-range interactions
Graphical Representations for Ising Systems in External Fields
The Damage Spreading Method in Monte Carlo Simulations: A brief overview and applications to confined magnetic materials
