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Phase transition from nematic to high-density disordered phase in a system of hard rods on a lattice

Aagam Shah, Deepak Dhar, R. Rajesh

2022Physical review. E14 citationsDOIOpen Access PDF

Abstract

A system of hard rigid rods of length k on hypercubic lattices is known to undergo two phase transitions when chemical potential is increased: from a low density isotropic phase to an intermediate density nematic phase, and on further increase to a high-density phase with no orientational order. In this paper, we argue that, for large k, the second phase transition is a first-order transition with a discontinuity in density in all dimensions greater than 1. We show that the chemical potential at the transition is ≈kln[k/lnk] for large k, and that the density of uncovered sites drops from a value ≈(lnk)/k^{2} to a value of order exp(-ak), where a is some constant, across the transition. We conjecture that these results are asymptotically exact, in all dimensions d≥2. We also present evidence of coexistence of nematic and disordered phases from Monte Carlo simulations for rods of length 9 on the square lattice.

Topics & Concepts

Liquid crystalCondensed matter physicsPhase transitionRodMonte Carlo methodSquare latticeLattice (music)IsotropyPhase (matter)Materials sciencePhase diagramDiscontinuity (linguistics)PhysicsSquare (algebra)Biaxial nematicAsymmetryFerroicsLimitingOrder (exchange)Quantum phase transitionFirst orderHard spheresCritical phenomenaTheoretical and Computational PhysicsMaterial Dynamics and PropertiesLiquid Crystal Research Advancements