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Main Author: Yokota, Hiroshi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.07754
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author Yokota, Hiroshi
author_facet Yokota, Hiroshi
contents Motivated by intracellular phase separation, we theoretically investigate how molecular orientation and multi-component nature affect phase behavior. We construct a minimal model for a ternary mixture composed of isotropic (I), anisotropic (A), and solvent (s) components by combining the Flory-Huggins and Maier-Saupe theories. We obtain two main results from evaluating the phase behavior and the time evolution of the density fields. First, for certain interaction parameters, two distinct binodal lines appear in the plane of the volume fractions of the I- and A-components, and merge through their respective critical points. Second, rapid droplet formation emerges due to a weakly first-order phase transition, characterized by a discontinuity of the spinodal surface. The first result indicates the possibility of continuous transformation between the two phase-separated states. The second result suggests that anisotropic molecules can regulate phase separation kinetics. These findings might be physically general beyond biological systems.
format Preprint
id arxiv_https___arxiv_org_abs_2511_07754
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fusion of two critical points and accelerated phase dynamics in orientational ternary mixtures
Yokota, Hiroshi
Soft Condensed Matter
Motivated by intracellular phase separation, we theoretically investigate how molecular orientation and multi-component nature affect phase behavior. We construct a minimal model for a ternary mixture composed of isotropic (I), anisotropic (A), and solvent (s) components by combining the Flory-Huggins and Maier-Saupe theories. We obtain two main results from evaluating the phase behavior and the time evolution of the density fields. First, for certain interaction parameters, two distinct binodal lines appear in the plane of the volume fractions of the I- and A-components, and merge through their respective critical points. Second, rapid droplet formation emerges due to a weakly first-order phase transition, characterized by a discontinuity of the spinodal surface. The first result indicates the possibility of continuous transformation between the two phase-separated states. The second result suggests that anisotropic molecules can regulate phase separation kinetics. These findings might be physically general beyond biological systems.
title Fusion of two critical points and accelerated phase dynamics in orientational ternary mixtures
topic Soft Condensed Matter
url https://arxiv.org/abs/2511.07754