Possible CAM canonical series in quantum and classical Monte Carlo simulations

In this article the Taylor-expansion method is introduced by which Monte Carlo ( \(\mathrm{MC}\) ) simulations in the canonical ensemble can be speeded up significantly. Substantial gains in computational speed of \(20-40 \%\) over conventional implementations of the \(M C\) technique are obtained o

Discrete models obtained from computer simulation are in increase use to study solvent effects. The approach consists of generating supermolecular structures for quantum mechanical calculations. The properties of the solute are calculated as an ensemble average over configurations generated by the s

A simple Monte Carlo model is presented for simulating the motion of a quantum harmonic oscillator trapped in a rare gas cluster or matrix which is treated as a classical heat bath. Preliminary results are present for the system l:.Aq~ where it would appear that the bond length of the molecule is se

A model of hard spheres adsorbed in a disordered quenched matrix of chain molecules is studied by using the replica Ornstein-Zernike equations and grand canonical Monte Carlo simulations. The pair distribution functions and the adsorption isotherms are obtained and discussed. The theory agrees well