The Clausius inequality has deep implications for reversibility and the arrow of time. Quantum theory is able to extend this result for closed systems by inspecting the trajectory of the density matrix on its manifold. Here we show that this approach can provide an upper and lower bound to the irreversible entropy production for open quantum systems as well. These provide insights on how the information on the initial state is forgotten through a thermalization process. Limits of the applicability of our bounds are discussed and demonstrated in a quantum photonic simulator.
Geometrical bounds on irreversibility in open quantum systems / Mancino, L.; Cavina, V.; De Pasquale, A.; Sbroscia, M.; Booth, R. I.; Roccia, E.; Gianani, I.; Giovannetti, V.; Barbieri, M.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 121:16(2018), p. 160602. [10.1103/PhysRevLett.121.160602]
Geometrical bounds on irreversibility in open quantum systems
Roccia E.;Gianani I.;
2018
Abstract
The Clausius inequality has deep implications for reversibility and the arrow of time. Quantum theory is able to extend this result for closed systems by inspecting the trajectory of the density matrix on its manifold. Here we show that this approach can provide an upper and lower bound to the irreversible entropy production for open quantum systems as well. These provide insights on how the information on the initial state is forgotten through a thermalization process. Limits of the applicability of our bounds are discussed and demonstrated in a quantum photonic simulator.| File | Dimensione | Formato | |
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