The Monte Carlo simulation of three-body phase space distributions

## Abstract We present a three‐dimensional (3D) semi‐classical ensemble Monte Carlo model newly developed to simulate a variety of nanoelectronic devices. The characteristics of the 3D model are compared with the widely used two‐dimensional (2D) models. The advantages of our model, in terms of accu

A hybrid conformational search algorithm (DMC) is described that combines a modified form of molecular dynamics with Metropolis Monte Carlo sampling, using the COSMIC(9O) force field. Trial configurations are generated by short bursts of high-temperature dynamics in which the initial kinetic energy

## Abstract The Monte Carlo method has been used for numerically simulating pulsed‐laser polymerization (PLP) in microemulsion, in order to establish if a shift from inflection point to peak maximum as the best measure of the propagation rate constant, __k__~p~, will occur theoretically. Terminatio

Multispin coding techniques have been combined with self-consistent boundary conditions to simulate three-dimensional Ising systems at a speed of 305 million spin updates per second, including magnetization and energy calculation, on a single processor of the CRAY YMP 832.