Energy-space quantum walks separate classical population equilibration to Gibbs statistics from persistent quantum coherence that prevents full state convergence to the thermal manifold.
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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.
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Energy-space quantum walks: Thermalization without state convergence
Energy-space quantum walks separate classical population equilibration to Gibbs statistics from persistent quantum coherence that prevents full state convergence to the thermal manifold.
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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.