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Entropy production of an active particle in a box

Nitzan Razin

2020Physical review. E35 citationsDOIOpen Access PDF

Abstract

A run-and-tumble particle in a one-dimensional box (infinite potential well) is studied. The steady state is analytically solved and analyzed, revealing the emergent length scale of the boundary layer where particles accumulate near the walls. The mesoscopic steady state entropy production rate of the system is derived from coupled Fokker-Planck equations with a linear reaction term, resulting in an exact analytic expression. The entropy production density is shown to peak at the walls. Additionally, the derivative of the entropy production rate peaks at a system size proportional to the length scale of the accumulation boundary layer, suggesting that the behavior of the entropy production rate and its derivatives as a function of the control parameter may signify a qualitative behavior change in the physics of active systems, such as phase transitions.

Topics & Concepts

Entropy productionMesoscopic physicsEntropy (arrow of time)Statistical physicsPhysicsProduction rateBoundary layerPrinciple of maximum entropyThermodynamicsMechanicsMathematicsQuantum mechanicsEngineeringStatisticsIndustrial engineeringMicro and Nano RoboticsAdvanced Thermodynamics and Statistical MechanicsQuantum Electrodynamics and Casimir Effect
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