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Title: Theoretically informed Monte Carlo simulation of liquid crystals by sampling of alignment-tensor fields. Author: Armas-Pérez JC, Londono-Hurtado A, Guzmán O, Hernández-Ortiz JP, de Pablo JJ. Journal: J Chem Phys; 2015 Jul 28; 143(4):044107. PubMed ID: 26233107. Abstract: A theoretically informed coarse-grained Monte Carlo method is proposed for studying liquid crystals. The free energy functional of the system is described in the framework of the Landau-de Gennes formalism. The alignment field and its gradients are approximated by finite differences, and the free energy is minimized through a stochastic sampling technique. The validity of the proposed method is established by comparing the results of the proposed approach to those of traditional free energy minimization techniques. Its usefulness is illustrated in the context of three systems, namely, a nematic liquid crystal confined in a slit channel, a nematic liquid crystal droplet, and a chiral liquid crystal in the bulk. It is found that for systems that exhibit multiple metastable morphologies, the proposed Monte Carlo method is generally able to identify lower free energy states that are often missed by traditional approaches. Importantly, the Monte Carlo method identifies such states from random initial configurations, thereby obviating the need for educated initial guesses that can be difficult to formulate.[Abstract] [Full Text] [Related] [New Search]