An application of Monte Carlo method to simulate disorders in polymer crystals

## Abstract A detailed analysis of the efficiency of a Monte‐Carlo (MC) method employing non‐local moves for simple lattice ring polymers is presented. While the introduction of kink‐translocation moves for linear chains results in the expected speedup by a factor of the order of the number of site

## Abstract In the current work, the Monte Carlo simulation method was applied to ethylene polymerization over Ziegler–Natta catalysts. As expected, polymerization over each center of a Ziegler–Natta catalyst leads to a polymer having a Schultz–Flory molecular weight distribution. Notwithstanding,

The Metropolis Monk Carlo method in the isot.hermal Isobanc ensemble has been extended 10 enable study of phase wansirions in molecular systems. and used to imestigale the transition rrom the cryslalhne LO Ihe orienlalionally disordered (plaslic-crystnlline) phase or carbon telrachlotide. The proble

parameters. The minimum time among those is generally smaller than the other characteristic times of impurity be-A new ''implicit'' Monte Carlo (IMC) method has been developed to simulate ionization and recombination processes of impurity ions havior. Thus the characteristic times of ionization and

We describe a new equilibration procedure for the atomic level simulation of a hydrated lipid bilayer. The procedure consists of alternating molecular dynamics trajectory calculations in a constant surface tension and temperature ensemble with configurational bias Monte Carlo moves to different regi