Active Refrigerators Powered by Inertia
Lukas Hecht, Suvendu Mandal, Hartmut Löwen, Benno Liebchen
Abstract
We present the operational principle for a refrigerator that uses inertial effects in active Brownian particles to locally reduce their (kinetic) temperature by 2 orders of magnitude below the environmental temperature. This principle exploits the peculiar but so-far unknown shape of the phase diagram of inertial active Brownian particles to initiate motility-induced phase separation in the targeted cooling regime only. Remarkably, active refrigerators operate without requiring isolating walls opening the route toward using them to systematically absorb and trap, e.g., toxic substances from the environment.
Topics & Concepts
InertiaBrownian motionInertial frame of referenceRefrigerator carPhase diagramTrap (plumbing)PhysicsKinetic energyPhase (matter)MechanicsClassical mechanicsThermodynamicsQuantum mechanicsMeteorologyMicro and Nano RoboticsAdvanced Thermodynamics and Statistical MechanicsAdvanced Materials and Mechanics