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W2913663338 abstract "In nature, objects which are in thermal contact with each other, usually approach the same temperature, unless a heat source (or sink) cherishes a persistent flow of heat. Accordingly, in a well-isolated apartment flat, most items are at a similar temperature. This is a general consequence of equilibrium thermodynamics, requiring coexisting phases to have identical temperatures. Opposing this generic situation, here we identify a system showing different temperatures in coexisting phases, which are separated from each other by a sharp and persistent temperature gradient. Thermodynamically, such a hot and a cold phase are allowed to coexist, as the system we consider comprises active particles which self-propel relative to their environment and are thus intrinsically out-of-equilibrium. Although these microparticles are well known to spontaneously phase-separate into a liquid- and a gas-like state, different kinetic temperatures in coexisting phases occur if and only if inertia is introduced, which is neglected in standard models describing active particles. Our results, therefore, exemplify a novel route to use active particles to create a self-sustained temperature gradient across coexisting phases, a phenomenon, which is fundamentally beyond equilibrium physics." @default.
W2913663338 created "2019-02-21" @default.
W2913663338 creator A5015824493 @default.
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W2913663338 creator A5055146059 @default.
W2913663338 date "2019-11-26" @default.
W2913663338 modified "2023-10-16" @default.
W2913663338 title "Motility-Induced Temperature Difference in Coexisting Phases" @default.
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W2913663338 doi "https://doi.org/10.1103/physrevlett.123.228001" @default.
W2913663338 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31868412" @default.
W2913663338 hasPublicationYear "2019" @default.
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