Effective Potentials, Energies, and Pair-distribution Functions of Plasmas by Monte-Carlo Simulations

## Abstract The effects of solvent and temperature on the exfoliation of layered platelets are studied by a Monte Carlo simulation on a cubic lattice. A platelet is modeled by a square sheet consisting of nodes tethered together by fluctuating bonds and the solvent by a set of particles. The intera

## Abstract The properties relevant to nonradiative energy transfer have been computed in the unperturbed chain model for oligopeptides composed of from 4 to 21 residues of the formula Tyr‐(Ala)~__n__~‐Tyr and Trp‐(__X__)~__n__~‐Tyr, __X__ being either Ala or Gly. A Monte Carlo method has been used

Molecular dynamics simulations of extended simple point charge (SPC/E) water have been performed to study the effects of the truncation of long-range interactions on some calculated bulk properties of the liquid. The mean potential calculated in liquid water is sensitive to the choice of the cutoff

This paper presents a method of extracting three-dimensional kinetic energy distributions from retarding potential curves, suitable for analysing low kinetic energy releases. Trajectory calculations were performed which led to an analytical function correcting for the influence of discrimination aga