Dynamical properties of Au from tight-binding molecular-dynamics simulations
arXiv:cond-mat/0101168 · doi:10.1103/PhysRevB.63.195101
Abstract
We studied the dynamical properties of Au using our previously developed tight-binding method. Phonon-dispersion and density-of-states curves at T=0 K were determined by computing the dynamical-matrix using a supercell approach. In addition, we performed molecular-dynamics simulations at various temperatures to obtain the temperature dependence of the lattice constant and of the atomic mean-square-displacement, as well as the phonon density-of-states and phonon-dispersion curves at finite temperature. We further tested the transferability of the model to different atomic environments by simulating liquid gold. Whenever possible we compared these results to experimental values.
7 pages, 9 encapsulated Postscript figures, submitted to Physical Review B