2020
DOI: 10.3390/e22010111
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Quantifying Athermality and Quantum Induced Deviations from Classical Fluctuation Relations

Abstract: In recent years a quantum information theoretic framework has emerged for incorporating nonclassical phenomena into fluctuation relations. Here we elucidate this framework by exploring deviations from classical fluctuation relations resulting from the athermality of the initial thermal system and quantum coherence of the system's energy supply. In particular we develop Crooks-like equalities for an oscillator system which is prepared either in photon added or photon subtracted thermal states and derive a Jarzy… Show more

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Cited by 3 publications
(4 citation statements)
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“…From Remark 19 it follows that ρ and {A (i) j } j=0,1 , i∈{1,...,N −1} must be equal to (up to local isometries) the state and observables of Eq. ( 46), (44), and (45), which proves our claim.…”
Section: A the Bipartite Tilted Bell Inequalitiessupporting
confidence: 82%
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“…From Remark 19 it follows that ρ and {A (i) j } j=0,1 , i∈{1,...,N −1} must be equal to (up to local isometries) the state and observables of Eq. ( 46), (44), and (45), which proves our claim.…”
Section: A the Bipartite Tilted Bell Inequalitiessupporting
confidence: 82%
“…Then, these are equal to (up to local isometries) the state and observables of Eqs. (46), (44), and (45).…”
Section: A the Bipartite Tilted Bell Inequalitiesmentioning
confidence: 99%
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“…From this, one can directly determine the relative value of any pair of resources: if resource R can be converted to resource S, then R is at least as valuable as S, since (in the context of these free operations) R can clearly be used for any purpose that S can be used for. There are by now many useful resource theories, including those for entanglement (relative to local operations and classical communication [32][33][34] or relative to local operations and shared randomness [21,35]), for nonclassicality in Bell scenarios [20] and other common-cause processes [22,23], for post-quantumness [36][37][38], for coherence [39][40][41], for athermality [42][43][44][45][46][47], and so on.…”
Section: The Resource Theory Of Nonclassicality In Epr Scenariosmentioning
confidence: 99%