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Active Brownian and inertial particles in disordered environments: Short-time expansion of the mean-square displacement

Davide Breoni, Michael Schmiedeberg, Hartmut Löwen

2020Physical review. E37 citationsDOIOpen Access PDF

Abstract

We consider an active Brownian particle moving in a disordered two-dimensional energy or motility landscape. The averaged mean-square displacement (MSD) of the particle is calculated analytically within a systematic short-time expansion. As a result, for overdamped particles, both an external random force field and disorder in the self-propulsion speed induce ballistic behavior adding to the ballistic regime of an active particle with sharp self-propulsion speed. Spatial correlations in the force and motility landscape contribute only to the cubic and higher-order powers in time for the MSD. Finally, for inertial particles two superballistic regimes are found where the scaling exponent of the MSD with time is α=3 and α=4. We confirm our theoretical predictions by computer simulations. Moreover, they are verifiable in experiments on self-propelled colloids in random environments.

Topics & Concepts

Mean squared displacementBrownian motionPhysicsInertial frame of referenceScalingDisplacement (psychology)Particle (ecology)Square (algebra)Classical mechanicsStatistical physicsDiffusionForce field (fiction)MechanicsMathematicsQuantum mechanicsGeometryMolecular dynamicsGeologyOceanographyPsychologyPsychotherapistMicro and Nano RoboticsAdvanced Thermodynamics and Statistical MechanicsParticle Dynamics in Fluid Flows