We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles of Fe and Co. Atomic structures were simulated using a molecular-dynamic approach, with the system slowly cooled into the ordered phase. The magnetic properties were then simulated using an atomistic approach using a classical spin Hamiltonian taking into account the long-range nature and atomic separation dependence of the exchange. The magnetic properties are found to be affected by both the particle shape and the lattice fluctuations. For a perfectly ordered lattice we find that a spherical particle has a larger magnetization for a given temperature than a cube containing the same number of atoms. We have also studied the effect of lattice...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
A Heisenberg mean-field model is used to study the effect of size and shape on the Curie temperature...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles ...
Effects of nanoparticle size (2.0-6.0 rim) and shape (spherical and cubic) on structural characteris...
The continuing development of advanced magnetic nanomaterials for electronic devices and medical app...
Magnetization of clusters is often simulated using atomistic spin dynamics for a fixed lattice. Coup...
Eects of nanoparticle size (2.06.0 nm) and shape (spherical and cubic) on structural characteristic ...
The purpose of this research is to have a quantitative analysis on the temperature dependence magnet...
Magnetic nanoparticles are important building blocks for future technologies ranging from nano-medic...
From the fundamental point of view, NPs formed by MFe2O4 with (M= Co, Fe) are ideal system models to...
The variation in magnetic properties with particle size for nanomagnetic particles at 300 K and 10 K...
Magnetic materials are now controllable down to a nanometer length scale and, hence, there is a broa...
The purpose of this research is to have a quantitative analysis on the temperature dependence magnet...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
A Heisenberg mean-field model is used to study the effect of size and shape on the Curie temperature...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
We have investigated the effect of lattice fluctuations on the magnetic properties of nanoparticles ...
Effects of nanoparticle size (2.0-6.0 rim) and shape (spherical and cubic) on structural characteris...
The continuing development of advanced magnetic nanomaterials for electronic devices and medical app...
Magnetization of clusters is often simulated using atomistic spin dynamics for a fixed lattice. Coup...
Eects of nanoparticle size (2.06.0 nm) and shape (spherical and cubic) on structural characteristic ...
The purpose of this research is to have a quantitative analysis on the temperature dependence magnet...
Magnetic nanoparticles are important building blocks for future technologies ranging from nano-medic...
From the fundamental point of view, NPs formed by MFe2O4 with (M= Co, Fe) are ideal system models to...
The variation in magnetic properties with particle size for nanomagnetic particles at 300 K and 10 K...
Magnetic materials are now controllable down to a nanometer length scale and, hence, there is a broa...
The purpose of this research is to have a quantitative analysis on the temperature dependence magnet...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...
A Heisenberg mean-field model is used to study the effect of size and shape on the Curie temperature...
The role of interparticle interactions and the morphology in the magnetic behavior of dense assembli...