Atomistic modeling of materials properties by Monte Carlo Simulation

The magnetic properties of interfacial regions between ferromagnetic nanograins and the residual matrix in nanocrystalline materials, are modelled using Monte Carlo simulation. The exchange coupling between matrix and nanograin influences differently the nanograin surface and the interface between n

Title of program: SKY2, SKY3, SKY4 simulates thermal equilibrium on a two, three or four dimensional lattice [3]. Catalogue number: AABZ Method of solution Program available from: CPC Program Library, Queen's Uni-A modified Metropolis algorithm [4] is used for a Monte Carlo versity of Belfast, N. Ir

Title of program: DEM Nature of physical problem The diffractive excitation model for multiparticle production Catalogue number: ABCK in proton-proton collisions provides a framework for the calculation of experimentally observable distributions [1], both in-Program obtainable from: CPC program libr

In the paper we present a variety of Monte Carlo algorithms, that can be employed to simulate the grain growth in polycrystalline materials during sintering. The simulation algorithms of monophase or twophase structure, on both the square and triangular distribution of lattice points, possibly with