Mercury dichloride is an ionic compound solidifying into a unique layer structure of rod-like monomers, so that unusual structural and physical properties can be expected for its liquid state. We propose a set of pseudoclassical interionic potentials,.including three-body forces and electronic-polarization terms, patterned on the results of relativistic first-principles calculations on the molecular monomer, dimer and trimer. The proposed force law will allow structural studies of the condensed phases by molecular-dynamics simulations, with the main aims of exploring the nature of the short-range and intermediate-range order in the melt and the process of ionization at high pressure and temperature. (C) 2013 Elsevier B.V. All rights reserved.
An interionic force law for HgCl2 from first-principles molecular calculations
Pastore G;
2013
Abstract
Mercury dichloride is an ionic compound solidifying into a unique layer structure of rod-like monomers, so that unusual structural and physical properties can be expected for its liquid state. We propose a set of pseudoclassical interionic potentials,.including three-body forces and electronic-polarization terms, patterned on the results of relativistic first-principles calculations on the molecular monomer, dimer and trimer. The proposed force law will allow structural studies of the condensed phases by molecular-dynamics simulations, with the main aims of exploring the nature of the short-range and intermediate-range order in the melt and the process of ionization at high pressure and temperature. (C) 2013 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
