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Unified, Geometric Framework for Nonequilibrium Protocol Optimization

Shriram Chennakesavalu, Grant M. Rotskoff

2023Physical Review Letters30 citationsDOIOpen Access PDF

Abstract

Controlling thermodynamic cycles to minimize the dissipated heat is a long-standing goal in thermodynamics, and more recently, a central challenge in stochastic thermodynamics for nanoscale systems. Here, we introduce a theoretical and computational framework for optimizing nonequilibrium control protocols that can transform a system between two distributions in a minimally dissipative fashion. These protocols optimally transport a system along paths through the space of probability distributions that minimize the dissipative cost of a transformation. Furthermore, we show that the thermodynamic metric-determined via a linear response approach-can be directly derived from the same objective function that is optimized in the optimal transport problem, thus providing a unified perspective on thermodynamic geometries. We investigate this unified geometric framework in two model systems and observe that our procedure for optimizing control protocols is robust beyond linear response.

Topics & Concepts

Dissipative systemNon-equilibrium thermodynamicsComputer scienceStatistical physicsMetric (unit)Transformation (genetics)Mathematical optimizationPhysicsMathematicsThermodynamicsOperations managementGeneChemistryEconomicsBiochemistryAdvanced Thermodynamics and Statistical MechanicsThermal Radiation and Cooling TechnologiesField-Flow Fractionation Techniques