AbstractMonte Carlo method with a variable number of calculation steps is used for simulations of the magnetization dynamics in a microsphere consisting of a non-magnetic core coated with a layer of magnetic nanograins. Namely, the dynamic magnetic hysteresis under an AC field in such a core-shell microsphere is considered for the cases of non-interacting particles and with allowance for the interparticle dipole-dipole interaction. The time portions corresponding to one calculation step are estimated from comparison of the Monte Carlo-Metropolis results and a numerically-exact solution of the kinetic equation
Ce travail est une étude théorique par la méthode de Monte Carlo Metropolis (MCM) de nanoparticules ...
[著者版]Magnetic dynamic processes for micromagnetic clusters with local disorder of crystal structure ...
For the description of thermally activated dynamics in systems of classical magnetic moments numeric...
The non-equilibrium dynamics of a single cubic core-shell ferrimagnetic nanoparticle system under a ...
Monte Carlo simulation based on Metropolis algorithm has been used with a great success to analyze t...
A standard canonical Markov Chain Monte Carlo method implemented with a single-macrospin movement Me...
In this paper, a Monte Carlo simulation is carried out to evaluate the equilibrium magnetization of ...
[出版社版](c)2006 IEEE. Personal use of this material is permitted. However, permission to reprint/repub...
We discuss numerical and theoretical results for models of magnetization switching in nanoparticles ...
Using Monte Carlo simulations, we have investigated the dynamic phase transition properties of magne...
We have presented dynamic phase transition features and stationary-state behavior of a ferrimagnetic...
Magnetization reversal in magnetic nanostructures is investigated numerically over time-scales rangi...
Magnetic materials are now controllable down to a nanometer length scale and, hence, there is a broa...
We present results of Monte Carlo and stochastic spin dynamics simulations of a magnetic nanoparticl...
International audienceUnderstanding the influence of dipolar interactions in magnetic hyperthermia e...
Ce travail est une étude théorique par la méthode de Monte Carlo Metropolis (MCM) de nanoparticules ...
[著者版]Magnetic dynamic processes for micromagnetic clusters with local disorder of crystal structure ...
For the description of thermally activated dynamics in systems of classical magnetic moments numeric...
The non-equilibrium dynamics of a single cubic core-shell ferrimagnetic nanoparticle system under a ...
Monte Carlo simulation based on Metropolis algorithm has been used with a great success to analyze t...
A standard canonical Markov Chain Monte Carlo method implemented with a single-macrospin movement Me...
In this paper, a Monte Carlo simulation is carried out to evaluate the equilibrium magnetization of ...
[出版社版](c)2006 IEEE. Personal use of this material is permitted. However, permission to reprint/repub...
We discuss numerical and theoretical results for models of magnetization switching in nanoparticles ...
Using Monte Carlo simulations, we have investigated the dynamic phase transition properties of magne...
We have presented dynamic phase transition features and stationary-state behavior of a ferrimagnetic...
Magnetization reversal in magnetic nanostructures is investigated numerically over time-scales rangi...
Magnetic materials are now controllable down to a nanometer length scale and, hence, there is a broa...
We present results of Monte Carlo and stochastic spin dynamics simulations of a magnetic nanoparticl...
International audienceUnderstanding the influence of dipolar interactions in magnetic hyperthermia e...
Ce travail est une étude théorique par la méthode de Monte Carlo Metropolis (MCM) de nanoparticules ...
[著者版]Magnetic dynamic processes for micromagnetic clusters with local disorder of crystal structure ...
For the description of thermally activated dynamics in systems of classical magnetic moments numeric...