Data di Pubblicazione:
2024
Abstract:
Fluctuations affect the functionality of nanodevices. Thermodynamic uncertainty relations (TURs), derived within the framework of stochastic thermodynamics, show that a minimal amount of dissipation is required to obtain a given relative energy current dispersion, that is, current precision has a thermodynamic cost. It is therefore of great interest to explore the possibility that TURs are violated, particularly for quantum systems, leading to accurate currents at lower cost. Here, we show that two quantum harmonic oscillators are synchronized by coupling to a common thermal environment, at strong dissipation and low temperature. In this regime, periodically modulated couplings to a second thermal reservoir, breaking time-reversal symmetry and taking advantage of non-Markovianity of this latter reservoir, lead to strong violation of TURs for local work currents, while maintaining finite output power. Our results pave the way for the use of synchronization in the thermodynamics of precision.
Tipologia CRIS:
Articolo su Rivista
Keywords:
quantum thermodynamics; quantum dissipative systems; harmonic oscillators; thermodynamic uncertainty relations; non-Markovianity; synchronization
Elenco autori:
Razzoli, L.; Carrega, M.; Cavaliere, F.; Benenti, G.; Sassetti, M.
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