In order to study the finite temperature behavior of magnetic nanoparticles a novel Monte Carlo method has been developed. The energy of a new trial configuration during the simulation is calculated directly from the expansion of the band energy avoiding a set up of an a priori Heisenberg-type model. The electronic structure of the cluster is determined by means of the embedded-cluster Green's function technique based on the Korringa Kohn Rostoker method within the local spin-density approximation of the density functional theory. As a benchmark the ground state of anti-ferromagnetic clusters and the temperature dependence of the magnetization of a flat square cluster of 16 Co atoms on a Cu(001) surface have been studied
We consider the probability of a magnetic nanoparticle to flip its magnetisation near the blocking t...
We have used the Monte Carlo (MC) simulation method with Metropolis algorithm to study the finite te...
We compare magnetovolume effects in bulk and nanoparticles by performing Monte Carlo simulations of ...
Magnetization simulations of ∼3 nm non-interacting Fe-Co ferromagnetic amorphous nanoparticles were ...
Based on the Monte Carlo simulation, the magnetic properties of the clusters, e.g. magnetization, Cu...
We perform micromagnetic simulations in MuMax3 on various magneticnanostructures to study their magn...
An effective simulation method based on the Wang-Landau Monte Carlo algorithm is used in order to de...
International audienceThe thermodynamics of iron clusters of various sizes, from 76 to 2452 atoms, t...
We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles ...
The question how magnetism behaves when the dimension of materials is reduced to increasingly smalle...
We calculate from first principles the electronic structure, relaxation and magnetic moments of sma...
Contains fulltext : 203851.pdf (publisher's version ) (Open Access)Radboud Univers...
We present results of Monte Carlo and stochastic spin dynamics simulations of a magnetic nanoparticl...
The continuing development of advanced magnetic nanomaterials for electronic devices and medical app...
Monte Carlo simulation based on Metropolis algorithm has been used with a great success to analyze t...
We consider the probability of a magnetic nanoparticle to flip its magnetisation near the blocking t...
We have used the Monte Carlo (MC) simulation method with Metropolis algorithm to study the finite te...
We compare magnetovolume effects in bulk and nanoparticles by performing Monte Carlo simulations of ...
Magnetization simulations of ∼3 nm non-interacting Fe-Co ferromagnetic amorphous nanoparticles were ...
Based on the Monte Carlo simulation, the magnetic properties of the clusters, e.g. magnetization, Cu...
We perform micromagnetic simulations in MuMax3 on various magneticnanostructures to study their magn...
An effective simulation method based on the Wang-Landau Monte Carlo algorithm is used in order to de...
International audienceThe thermodynamics of iron clusters of various sizes, from 76 to 2452 atoms, t...
We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles ...
The question how magnetism behaves when the dimension of materials is reduced to increasingly smalle...
We calculate from first principles the electronic structure, relaxation and magnetic moments of sma...
Contains fulltext : 203851.pdf (publisher's version ) (Open Access)Radboud Univers...
We present results of Monte Carlo and stochastic spin dynamics simulations of a magnetic nanoparticl...
The continuing development of advanced magnetic nanomaterials for electronic devices and medical app...
Monte Carlo simulation based on Metropolis algorithm has been used with a great success to analyze t...
We consider the probability of a magnetic nanoparticle to flip its magnetisation near the blocking t...
We have used the Monte Carlo (MC) simulation method with Metropolis algorithm to study the finite te...
We compare magnetovolume effects in bulk and nanoparticles by performing Monte Carlo simulations of ...