English

Phase Transition in Dimer Liquids

Statistical Mechanics 2013-09-06 v1

Abstract

We study the phase transition in a system composed of dimers interacting with each other via a nearest-neighbor (NN) exchange JJ and competing interactions taken from a truncated dipolar coupling. Each dimer occupies a link between two nearest sites of a simple cubic lattice. We suppose that dimers are self-avoiding and can have only three orientations which coincide with the xx, yy or zz direction. The interaction JJ is attractive if the two dimers are parallel with each other at the NN distance, zero otherwise. The truncated dipolar interaction is characterized by two parameters: its amplitude DD and the cutoff distance rcr_c. Using the steepest-descent method, we determine the ground-state (GS) configuration as functions of DD and rcr_c. We then use Monte Carlo simulations to investigate the nature of the low-temperature phase and to determine characteristics of the phase transition from the ordered phase to the disordered phase at high temperatures at a given dimer concentration. We show that as the temperature increases, dimers remain in the compact state and the transition from the low-TT compact phase to the disordered phase where dimers occupy the whole space is of second order when DD is small, but it becomes of first order for large enough DD, for both polarized and non polarized dimers. This transition has a resemblance with the unfolding polymer transition. The effect of rcr_c is discussed.

Keywords

Cite

@article{arxiv.1309.1427,
  title  = {Phase Transition in Dimer Liquids},
  author = {Danh-Tai Hoang and Hung T. Diep},
  journal= {arXiv preprint arXiv:1309.1427},
  year   = {2013}
}
R2 v1 2026-06-22T01:21:39.204Z