A new generic model potential for mesogenic systems: Square well line potential of variable range

Author(s): Szabolcs Varga, Franz Vesely
Abstract: A single-site pair potential is derived to approximate the linear n-site square well interaction. The resulting square well line (SWL) potential is analytical, fairly smooth, and reproduces the distance and orientation dependence of the multisite pair energy. It contains only three control parameters n, L, and s(2), in addition to the units of length s(1) and energy epsilon. The advantages of the new model over the traditional potentials such as Gay-Berne and Kihara are that n, L, and s(2) are physically meaningful quantities and that no additional adjustable parameters are introduced. With the SWL potential even very long square well chain molecules may be treated in Monte Carlo (MC) simulations; moreover the model is well suited for perturbation theory. Using Onsager-like theories we test the effect of molecular elongation, temperature, and the range of the square well potential on the vapor-liquid and nematic-smectic A (NS) phase transitions. We find that the vapor-liquid binodal of the SWL fluid is in good agreement with MC results for square well dumbbells. For repulsive SWL particles, varying the interaction range s(2) results in a similar effect on the NS transition as the change in the ionic strength in a real suspension of fd viruses.
Organisation(s): Computational and Soft Matter Physics
External organisation(s): University of Pannonia
Journal: Journal of Chemical Physics
Volume: 131
ISSN: 0021-9606
DOI: https://doi.org/10.1063/1.3264109
Publication date: 2009
Peer reviewed: Yes
Austrian Fields of Science 2012: 1030 Physics, Astronomy
Portal url: https://ucrisportal.univie.ac.at/en/publications/d89209a2-161d-4b01-8eae-55b3d149d329