Quantum algorithm with rigorous truncation error bounds and spectral gap guarantees for free energy estimation in finite-temperature Coulomb quantum systems via Markovian Gibbs sampling.
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2026 2verdicts
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A new rigorous Gibbs sampling method is given for bosonic models by proving that their dissipative generators have positive spectral gaps, enabling efficient quantum preparation of thermal states for Bose-Hubbard Hamiltonians.
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Computing the free energy of quantum Coulomb gases and molecules via quantum Gibbs sampling
Quantum algorithm with rigorous truncation error bounds and spectral gap guarantees for free energy estimation in finite-temperature Coulomb quantum systems via Markovian Gibbs sampling.
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Simulating Thermal Properties of Bose-Hubbard Models on a Quantum Computer
A new rigorous Gibbs sampling method is given for bosonic models by proving that their dissipative generators have positive spectral gaps, enabling efficient quantum preparation of thermal states for Bose-Hubbard Hamiltonians.