2018
DOI: 10.1103/physreve.97.022142
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Quantum thermodynamics with local control

Abstract: We investigate the limitations that emerge in thermodynamic tasks as a result of having local control only over the components of a thermal machine. These limitations are particularly relevant for devices composed of interacting many-body systems. Specifically, we study protocols of work extraction that employ a many-body system as a working medium whose evolution can be driven by tuning the on-site Hamiltonian terms. This provides a restricted set of thermodynamic operations, giving rise to alternative bounds… Show more

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Cited by 30 publications
(30 citation statements)
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“…Ruling out the possibility of using non-Markovian effects to improve the efficiency in the model [56][57][58], the power boost we reported above for the Carnot and Otto cycle can only be seen as a consequence of the latter in the reduction of thermalization timescales. We show here an argument to explain why it happens and how it is related to the non-Markovian building of correlations between the engine S and the j-th bath.…”
Section: Free-energy Analysismentioning
confidence: 97%
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“…Ruling out the possibility of using non-Markovian effects to improve the efficiency in the model [56][57][58], the power boost we reported above for the Carnot and Otto cycle can only be seen as a consequence of the latter in the reduction of thermalization timescales. We show here an argument to explain why it happens and how it is related to the non-Markovian building of correlations between the engine S and the j-th bath.…”
Section: Free-energy Analysismentioning
confidence: 97%
“…In such a set up indeed, Refs. [56][57][58] show how this mechanism can only have detrimental effects from the point of view of quasi-static Thermodynamics: that is, without external free energy injections, the 2nd Law assures the Carnot efficiency is the maximal one. Nothing instead, has been stated from the point of view of FTT: even if lowering the maximal efficiency, there is still question on the effects on power and EMP, which are, from the practical point of view, much more interesting than pure maximal efficiency.…”
Section: Quantum Thermal Machines In the Non-markovian Regimementioning
confidence: 99%
“…For the feedback operation that decorrelates the system under study (SUS) and the demon in Szilard's engine, the SUS is the interacting subsystem Z i ¼ Z SUS , and the demon's memory is fixed, so that it is the stationary subsystem Z s ¼ Z demon . For this feedback step, modular control means that the externally controlled Hamiltonian [9] is the SUS's Hamiltonian:…”
Section: Prior Thermodynamics Of Correlationmentioning
confidence: 99%
“…In this setting, a modularly designed computation processes only the local component of the input, ignoring the latter's global structure. This inherent locality is a physical control restriction and, thus, can lead to thermodynamic inefficiency [9,10]. Local control in modular systems necessarily leads to irretrievable loss of global correlations during computing.…”
Section: Introductionmentioning
confidence: 99%
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