The state dependence of integrated, instantaneous, and fluctuating entropy production in quantum and classical processes
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Given a fixed physical process, we consider the entropy production (EP) incurred by some initial state ρ, additional to the minimal EP incurred by the least-dissipative state φ. We show that this additional EP has a universal information-theoretic form, given by the contraction of the relative entropy between ρ and φ over time. This result holds for total integrated EP, instantaneous EP rate, and fluctuating EP. We derive novel bounds on EP, analyze the thermodynamics of quantum error correction, and propose a thermodynamically-motivated measure of the logical irreversibility of a channel.
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