Diversity of phase transitions and phase separations in active fluids
Thibault Bertrand, Chiu Fan Lee
Abstract
Active matter is not only indispensable to our understanding of diverse biological processes, but also provides a fertile ground for discovering novel physics. Many emergent properties impossible for equilibrium systems have been demonstrated in active systems. These emergent features include motility-induced phase separation, a long-ranged ordered (collective motion) phase in two dimensions, and order-disorder phase coexistences (banding and reverse-banding regimes). Here, we unify these diverse phase transitions and phase coexistences into a single formulation based on generic hydrodynamic equations for active fluids. We also reveal a novel comoving coexistence phase and a multicritical point.
Topics & Concepts
Active matterPhase transitionDiversity (politics)AttributionStatistical physicsPhase (matter)PhysicsTheoretical physicsEpistemologySociologyCondensed matter physicsPsychologyQuantum mechanicsSocial psychologyPhilosophyBiologyAnthropologyCell biologyMicro and Nano RoboticsPickering emulsions and particle stabilizationAdvanced Thermodynamics and Statistical Mechanics