A system-only two-point measurement framework delivers exact fluctuation relations for work and heat in open quantum systems along with Jarzynski corrections, recovering prior results for closed systems and holding exactly for pure decoherence.
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4 Pith papers cite this work. Polarity classification is still indexing.
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Derives a Boltzmann-like distribution over actions via maximum entropy subject to a mean-action constraint, producing a Markovian stochastic propagator that matches Brownian motion and remains covariant at relativistic speeds.
Complementarity variables define cylindrical coordinates on the Bloch sphere with openness as radial deficit, and quasistatic driving creates a work connection whose curvature yields holonomic response depending on dissipation alignment.
Kubo's FDT remains unchanged despite an induced electric force from the bath, enabling a Gaussian position PDF that proves the detailed fluctuation theorem for entropy production in this non-Markovian GLE setup.
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Stochastic dynamics from maximum entropy in action space
Derives a Boltzmann-like distribution over actions via maximum entropy subject to a mean-action constraint, producing a Markovian stochastic propagator that matches Brownian motion and remains covariant at relativistic speeds.
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Non-Markovian entropy production fluctuation theorem driven by a time-dependent electric field
Kubo's FDT remains unchanged despite an induced electric force from the bath, enabling a Gaussian position PDF that proves the detailed fluctuation theorem for entropy production in this non-Markovian GLE setup.