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Optimal navigation strategy of active Brownian particles in target-search problems

Luigi Zanovello, Pietro Faccioli, Thomas Franosch, Michele Caraglio

2021The Journal of Chemical Physics25 citationsDOIOpen Access PDF

Abstract

We investigate exploration patterns of a microswimmer, modeled as an active Brownian particle, searching for a target region located in a well of an energy landscape and separated from the initial position of the particle by high barriers. We find that the microswimmer can enhance its success rate in finding the target by tuning its activity and its persistence in response to features of the environment. The target-search patterns of active Brownian particles are counterintuitive and display characteristics robust to changes in the energy landscape. On the contrary, the transition rates and transition-path times are sensitive to the details of the specific energy landscape. In striking contrast to the passive case, the presence of additional local minima does not significantly slow down the active-target-search dynamics.

Topics & Concepts

Energy landscapeBrownian motionCounterintuitiveMaxima and minimaBrownian dynamicsEnergy (signal processing)Statistical physicsParticle (ecology)Position (finance)Fitness landscapeBiological systemPhysicsComputer scienceClassical mechanicsBiologyMathematicsEcologyQuantum mechanicsFinancePopulationThermodynamicsSociologyMathematical analysisDemographyEconomicsMicro and Nano RoboticsDiffusion and Search DynamicsPickering emulsions and particle stabilization
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