Flux control creates flat bands in a frustrated bosonic lattice that suppress heat loss and raise Otto-cycle work extraction while Stirling cycles gain work over wider ranges at lower efficiency.
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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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Bosonic Working Media in a Frustrated Rhombi Chain: Otto and Stirling Cycles from Flat Bands, Caging, and Flux Control
Flux control creates flat bands in a frustrated bosonic lattice that suppress heat loss and raise Otto-cycle work extraction while Stirling cycles gain work over wider ranges at lower efficiency.
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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.