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Jerky active matter: a phase field crystal model with translational and orientational memory

Michael te Vrugt, Julian Jeggle, Raphael Wittkowski

2021New Journal of Physics23 citationsDOIOpen Access PDF

Abstract

Abstract Most field theories for active matter neglect effects of memory and inertia. However, recent experiments have found inertial delay to be important for the motion of self-propelled particles. A major challenge in the theoretical description of these effects, which makes the application of standard methods very difficult, is the fact that orientable particles have both translational and orientational degrees of freedom which do not necessarily relax on the same time scale. In this work, we derive the general mathematical form of a field theory for soft matter systems with two different time scales. This allows to obtain a phase field crystal model for active particles with translational and orientational memory. Notably, this theory is of third order in temporal derivatives and can thus be seen as a spatiotemporal jerky dynamics. We obtain the phase diagram of this model, which shows that, unlike in the passive case, the linear stability of the liquid state depends on the damping coefficients. Moreover, we investigate sound waves in active matter. It is found that, in active fluids, there are two different mechanisms for sound propagation. For certain parameter values and sufficiently high frequencies, sound mediated by polarization waves experiences less damping than usual passive sound mediated by pressure waves of the same frequency. By combining the different modes, acoustic frequency filters based on active fluids could be realized.

Topics & Concepts

PhysicsSecond soundPolarization (electrochemistry)Liquid crystalClassical mechanicsPhase (matter)Field (mathematics)Acoustic wavePhase diagramSound waveActive matterDegrees of freedom (physics and chemistry)Inertial frame of referenceInstabilitySpeed of soundState of matterStability (learning theory)Condensed matter physicsMechanicsStanding waveStatistical physicsTranslational motionPhase transitionDynamics (music)Sound pressureEquations of motionOpticsPosition (finance)Crystal (programming language)Micro and Nano RoboticsNonlinear Dynamics and Pattern FormationPiezoelectric Actuators and Control
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