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W3202872056 abstract "Near equilibrium, thermodynamic intuition suggests that fast, irreversible processes will dissipate more energy and entropy than slow, quasistatic processes connecting the same initial and final states. Here, we test the hypothesis that this relationship between speed and dissipation holds for stochastic processes far from equilibrium. To analyze these processes on finite timescales, we derive an exact expression for the path probabilities of continuous-time Markov chains from the path summation solution of the master equation. Applying this formula to a model for nonequilibrium self-assembly, we show that more speed can lead to less dissipation when there are strong nonequilibrium currents. In the model, the relative energies of the initial and target states control the speed, and the nonequilibrium currents of a cycle situated between these states control the path-level dissipation. This model serves as a minimal prototype for designing kinetics to sculpt the nonequilibrium path space, so that faster structure-forming paths dissipate less." @default.
W3202872056 created "2021-10-11" @default.
W3202872056 creator A5022301289 @default.
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W3202872056 date "2022-11-23" @default.
W3202872056 modified "2023-10-14" @default.
W3202872056 title "Stochastic paths controlling speed and dissipation" @default.
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W3202872056 cites W2012483631 @default.
W3202872056 cites W2025381883 @default.
W3202872056 cites W2026224179 @default.
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W3202872056 cites W2128586988 @default.
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W3202872056 cites W3014467160 @default.
W3202872056 cites W3021395152 @default.
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W3202872056 cites W3100391302 @default.
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W3202872056 cites W4244360209 @default.
W3202872056 cites W4255218208 @default.
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W3202872056 doi "https://doi.org/10.1103/physreve.106.054151" @default.
W3202872056 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36559408" @default.
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