We present a comprehensive numerical study of the phase behavior and dynamics of a three-dimensional active dumbbell system with attractive interactions. We demonstrate that attraction is essential for the system to exhibit nontrivial phases. We construct a detailed phase diagram by exploring the effects of the system's activity, density, and attraction strength. We identify several distinct phases, including a disordered, a gel, and a completely phase-separated phase. Additionally, we discover a novel dynamical phase, that we name percolating network, which is characterized by the presence of a spanning network of connected dumbbells. In the phase-separated phase we characterize numerically and describe analytically the helical motion of the dense cluster.We present the phase behavior and dynamics of a three-dimensional active dumbbell system with attractive interactions. We identify several distinct phases, including a disordered, a gel, an active percolating network phase, and a phase separated phase where clusters perform an helicoidal trajectory.

Phase behaviour and dynamics of three-dimensional active dumbbell systems

Caporusso, C. B.;Negro, G.;Suma, A.;Carenza, L. N.;Gonnella, G.;
2024-01-01

Abstract

We present a comprehensive numerical study of the phase behavior and dynamics of a three-dimensional active dumbbell system with attractive interactions. We demonstrate that attraction is essential for the system to exhibit nontrivial phases. We construct a detailed phase diagram by exploring the effects of the system's activity, density, and attraction strength. We identify several distinct phases, including a disordered, a gel, and a completely phase-separated phase. Additionally, we discover a novel dynamical phase, that we name percolating network, which is characterized by the presence of a spanning network of connected dumbbells. In the phase-separated phase we characterize numerically and describe analytically the helical motion of the dense cluster.We present the phase behavior and dynamics of a three-dimensional active dumbbell system with attractive interactions. We identify several distinct phases, including a disordered, a gel, an active percolating network phase, and a phase separated phase where clusters perform an helicoidal trajectory.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11586/466607
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