Molecular dynamics study of glancing angle gas cluster irradiation on irregular-structured surfaces

We have performed molecular dynamics simulations for Pt N + Pt N → Pt 2N (N = 147, 324, 500,792), to investigate the effect of size and substrate on coalescence temperature. Our simulations show that platinum nanoclusters coalesce at the temperatures lower than the cluster melting point. The differe

## Abstract The dissociation phenomena of a gas molecule on a metal surface were analyzed by the molecular dynamics method. A platinum (111) surface and hydrogen were chosen as the metal surface and the gas molecule, respectively. The embedded atom method was used as the interaction between atoms i

A molecular dynamics simulation has been performed for a two-dimensional LennardJones (12-6) fluid. A saturated liquid at low temperature, compressed liquid, and fluid at supercritical temperatures with various densities were analyzed. Number of bonds per molecule, lifetime of bonds, connectivity of

Energy transfer from fluid to surface was calculated numerically by using the classical molecular dynamics method in order to investigate the effects of surface structures from 0.1 nm to 10 nm on surface energy transfer. Surface structures on a constant surface area were composed of several hundred