We study how to achieve the ultimate power in the simplest, yet non-trivial, model of a thermal machine, namely a two-level quantum system coupled to two thermal baths. Without making any prior assumption on the protocol, via optimal control we show that, regardless of the microscopic details and of the operating mode of the thermal machine, the maximum power is universally achieved by a fast Otto-cycle like structure in which the controls are rapidly switched between two extremal values. A closed formula for the maximum power is derived, and finite-speed effects are discussed. We also analyze the associated efficiency at maximum power showing that, contrary to universal results derived in the slow-driving regime, it can approach Carnot’s efficiency, no other universal bounds being allowed.

Maximum power and corresponding efficiency for two-level heat engines and refrigerators: optimality of fast cycles

Erdman, Paolo Andrea;Cavina, Vasco
;
Fazio, Rosario;Taddei, Fabio;Giovannetti, Vittorio
2019

Abstract

We study how to achieve the ultimate power in the simplest, yet non-trivial, model of a thermal machine, namely a two-level quantum system coupled to two thermal baths. Without making any prior assumption on the protocol, via optimal control we show that, regardless of the microscopic details and of the operating mode of the thermal machine, the maximum power is universally achieved by a fast Otto-cycle like structure in which the controls are rapidly switched between two extremal values. A closed formula for the maximum power is derived, and finite-speed effects are discussed. We also analyze the associated efficiency at maximum power showing that, contrary to universal results derived in the slow-driving regime, it can approach Carnot’s efficiency, no other universal bounds being allowed.
2019
Settore FIS/03 - Fisica della Materia
efficiency at maximum power; maximum power; optimal control; quantum heat engine; quantum thermodynamics
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11384/142924
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