4.7 Article

Phase behavior of the generalized chiral Lebwohl-Lasher model in bulk and confinement

Journal

PHYSICAL REVIEW E
Volume 105, Issue 5, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevE.105.054704

Keywords

-

Funding

  1. German Research Foundation (DFG) [435320238, INST 39/963-1 FUGG (bwForCluster NEMO)]
  2. state of BadenWurttemberg through bwHPC

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In this study, we combined two extensions of the Lebwohl-Lasher model and investigated the phase behavior and phase transitions of the resulting generalized chiral Lebwohl-Lasher model in liquid crystalline systems using Monte Carlo simulations. We found that the type and existence of the transition depend on the combination of the interaction potential width, the strength of the chiral part of the interaction, and the system geometry. Additionally, the pitch of the cholesteric bulk phase changes if the interaction width differs from the original Lebwohl-Lasher model, and we identified parameter combinations that can tune the properties of the ordered phase and the nature of the order-disorder transition.
One of the simplest models that is used to study the isotropic-nematic tranition in liquid crystalline systems is the Lebwohl-Lasher model. Several extensions of this model further enhanced its applicability. We combine two of these extensions (a generalization and the inclusion of a chiral term) and study the phase behavior and the nature of phase transitions of the resulting generalized chiral Lebwohl-Lasher model using Monte Carlo simulations. We find that the type (and even the existence) of the transition depends on the combination of the width of the interaction potential, the strength of the chiral part of the interaction, and the geometry of the system. As well, the pitch of the cholesteric bulk phase changes on approaching the phase transition if the interaction width differs from the one of the original Lebwohl-Lasher model. Thus, we identify parameter combinations that allow one to tune the properties of the ordered phase and the nature of the order-disorder transition.

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