We compare magnetovolume effects in bulk and nanoparticles by performing Monte Carlo simulations of a spin-analogous model with coupled spatial and magnetic degrees of freedom and chemical disorder. We find that correlations between surface and bulk atoms lead with decreasing particle size to a substantial modification of the magnetic and elastic behavior at low temperatures
The variation in magnetic properties with particle size for nanomagnetic particles at 300 K and 10 K...
The fundamental understanding of nanoscale materials has been the focus of much scientific and techn...
Being inspired by a recent study (Dimitriadis et al., 2015), we study the finite temperature magneti...
We compare magnetovolume effects in bulk and nanoparticles by performing Monte Carlo simulations of ...
Finite-size and surface effects in fine particle systems are investigated by Monte Carlo simulation ...
This work is concerned with the simulation of magnetovolume effects in the Fe-Ni and FeRh transitio...
. We have reproduced magneto-volume effects typical for Invar alloys by examining a spin-analogous m...
The continuing development of advanced magnetic nanomaterials for electronic devices and medical app...
© 2019 Author(s). Magnetic effects caused by dipolar interactions in single-domain magnetic ensemble...
We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles ...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
Monte Carlo simulations of the dynamic magnetic behavior of an assembly of ferromagnetic core/antife...
The magnetic properties and pseudocritical behavior of ferromagnetic pure and metallic nanoparticles...
We have employed the Monte Carlo (MC) simulation technique to study the aging effect on the Zero-Fie...
A model is developed with the aim of analyzing relevant aspects of interacting magnetic nanoparticle...
The variation in magnetic properties with particle size for nanomagnetic particles at 300 K and 10 K...
The fundamental understanding of nanoscale materials has been the focus of much scientific and techn...
Being inspired by a recent study (Dimitriadis et al., 2015), we study the finite temperature magneti...
We compare magnetovolume effects in bulk and nanoparticles by performing Monte Carlo simulations of ...
Finite-size and surface effects in fine particle systems are investigated by Monte Carlo simulation ...
This work is concerned with the simulation of magnetovolume effects in the Fe-Ni and FeRh transitio...
. We have reproduced magneto-volume effects typical for Invar alloys by examining a spin-analogous m...
The continuing development of advanced magnetic nanomaterials for electronic devices and medical app...
© 2019 Author(s). Magnetic effects caused by dipolar interactions in single-domain magnetic ensemble...
We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles ...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
Monte Carlo simulations of the dynamic magnetic behavior of an assembly of ferromagnetic core/antife...
The magnetic properties and pseudocritical behavior of ferromagnetic pure and metallic nanoparticles...
We have employed the Monte Carlo (MC) simulation technique to study the aging effect on the Zero-Fie...
A model is developed with the aim of analyzing relevant aspects of interacting magnetic nanoparticle...
The variation in magnetic properties with particle size for nanomagnetic particles at 300 K and 10 K...
The fundamental understanding of nanoscale materials has been the focus of much scientific and techn...
Being inspired by a recent study (Dimitriadis et al., 2015), we study the finite temperature magneti...