Measurement-based quantum Otto engines with POVMs and non-adiabatic operation extract more net work than conventional or PVM-based engines in specific regimes, even after reset costs.
Uusn¨ akki, A
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A universal framework for strong-coupling quantum thermodynamics that defines an intrinsic Hamiltonian of mean force, preserves von Neumann entropy and standard gauge freedoms, and formulates first and second laws from microscopically accessible variables.
Classical thermodynamic uncertainty bounds on efficiency persist in quantum thermal machines with coherent transport, but cross-correlations optimize joint precision of currents near linear response.
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Optimal work extraction in measurement-based quantum Otto engines: Non-adiabaticity and generalized measurements can be beneficial
Measurement-based quantum Otto engines with POVMs and non-adiabatic operation extract more net work than conventional or PVM-based engines in specific regimes, even after reset costs.
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Intrinsic Hamiltonian of Mean Force and Strong-Coupling Quantum Thermodynamics
A universal framework for strong-coupling quantum thermodynamics that defines an intrinsic Hamiltonian of mean force, preserves von Neumann entropy and standard gauge freedoms, and formulates first and second laws from microscopically accessible variables.
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Quantum Coherence Reshapes Thermodynamic Bounds for Thermal Machines
Classical thermodynamic uncertainty bounds on efficiency persist in quantum thermal machines with coherent transport, but cross-correlations optimize joint precision of currents near linear response.