Chandler—Silbey—Ladanyi integral equation theory for semiflexible molecules

Abstract

Extension of Chandler—Silbey—Ladanyi (CSL) integral equation theory for the fluid of semi-flexible site—site molecules is proposed. The Percus—Yevick type of the closure is used to describe the structural properties of the fluid consisting of semiflexible linear chain triatomic molecules. Results for the site—site intramolecular and intermolecular radial distribution functions (RDFs) are compared with the corresponding computer simulation results and results of self-consistent reference interaction site model (RISM) theory. In general both theories give reasonably good agreement with corresponding Monte Carlo simulation data. The exception is the RDF between the terminal sites, for which none of the theories is satisfactory. The present version of CSL theory appears to be slightly more accurate than the self-consistent RISM approach.