Equilibrium magnetic properties of dipolar interacting ferromagnetic nanoparticles

“…Monte Carlo (MC) simulations of zero field /field cooling magnetizations on nanoparticles with random anisotropy show that the T B clearly increases with increasing strength of dipolar interaction [22]. It is also known that the ZFC/FC curves of samples crucially depend on the volume and spatial arrangement of the magnetic particles.…”

Preparation and study of magnetic properties of silico phosphate glass and glass-ceramics having iron and zinc oxide

“…Monte Carlo (MC) simulations of zero field /field cooling magnetizations on nanoparticles with random anisotropy show that the T B clearly increases with increasing strength of dipolar interaction [22]. It is also known that the ZFC/FC curves of samples crucially depend on the volume and spatial arrangement of the magnetic particles.…”

Preparation and study of magnetic properties of silico phosphate glass and glass-ceramics having iron and zinc oxide

“…Although a few theoretical studies have been devoted to ZFC/FC curves [1][2][3][4][5][6][7], to our knowledge, no theoretical derivation of an analytical expression of the magnetic moment for the entire temperature range for the ZFC and FC curves has been reported. Despite the fact that they are widespread in the nanomagnetism literature, ZFC/FC susceptibility curves remain in many cases underexploited.…”

Magnetic susceptibility curves of a nanoparticle assembly, I: Theoretical model and analytical expressions for a single magnetic anisotropy energy

“…The second step of the simulation is to calculate the equilibrium magnetization of this cluster by using a Monte Carlo simulation technique. The Monte Carlo methods have proved to be an efficient approach to study the magnetization processes of dipolar-interacting single-domain nanoparticles in thin films [8][9][10].…”

Monte Carlo simulation of magnetic multi-core nanoparticles