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The thermodynamic meaning of negative entropy
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Landauer's erasure principle exposes an intrinsic relation between thermodynamics and information theory: the erasure of information stored in a system, S, requires an amount of work proportional to the entropy of that system. This entropy, H(S|O), depends on the information that a given observer, O, has about S, and the work necessary to erase a system may therefore vary for different observers. Here, we consider a general setting where the information held by the observer may be quantum-mechanical, and show that an amount of work proportional to H(S|O) is still sufficient to erase S. Since the entropy H(S|O) can now become negative, erasing a system can result in a net gain of work (and a corresponding cooling of the environment).
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Forward citations
Cited by 2 Pith papers
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Battery-Explicit Energetic Witnesses of CHSH Post-Quantumness
A single excitation is routed by an energy-preserving SWAP into a binary battery whose mean charge equals Δ times (½ + S/8), turning Tsirelson's bound into a quantum ceiling on battery work.
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Thermodynamic value of CHSH-induced side-information channels in a Szilard engine
CHSH correlations induce a binary-symmetric side-information channel whose mutual information sets the reversible work extractable in a Szilard engine, with quantum and nonsignalling resources outperforming classical ones.
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