Ensemble Monte Carlo simulations of femtosecond energy relaxation of photoexcited electrons in bulk GaAs

A new Monte-Carlo program for simulation of low energy electron scattering in solids is presented. Applications to electron microscopy and electron microprobe analysis are discussed. Elastic interactions are described by Mott cross sections within the framework of partial wave analysis (PWA) whereas

The reorganization energy of electron-transfer reactions as a function of the distance between donor and acceptor molecules is calculated by Monte Carlo simulation. It is found that the reorganization energy of charge-separation reactions is appreciably different from that of charge-recombination re

We conducted Monte Carlo simulations of polar solutions by explicitly treating the effect of electronic polarizability of solvent molecules. Based on these data, we calculated the energy-gap dependence of electron-transfer rates. It was found that a considerable asymmetry of the energy-gap dependenc

In the present work we have carried out a Monte Carlo simulation of a dissociative electron transfer reaction in a polar solvent. In particular, we have chosen as a very simple model the electrochemical reduction of hydrogen fluoride to give a hydrogen atom and a fluoride anion in a dipolar solvent.

A free energy barrier AF+ = 174.2 kJ/mol for the self-exchange electron transfer reaction model Fe+/Fe2+ in water has been calculated by combining Monte Carlo simulations and the statistical perturbation theory. We have shown that, even for those electron transfer reactions that present a very high