Large-scale quantum Monte Carlo simulations provide direct microscopic evidence for a fermion-quadrupling condensate with transition temperature on the scale of the hopping energy.
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Adiabatic evolution prepares local thermal states from initial Gibbs states while conserving entropy density in the thermodynamic limit, with mirror-circuit benchmarking of hardware noise entropy demonstrated experimentally on a 5x4 Ising model.
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Demonstration of a fermion Quadrupling Condensate via Quantum Monte Carlo Simulation
Large-scale quantum Monte Carlo simulations provide direct microscopic evidence for a fermion-quadrupling condensate with transition temperature on the scale of the hopping energy.
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Adiabatic preparation of thermal states and entropy-noise relation on noisy quantum computers
Adiabatic evolution prepares local thermal states from initial Gibbs states while conserving entropy density in the thermodynamic limit, with mirror-circuit benchmarking of hardware noise entropy demonstrated experimentally on a 5x4 Ising model.