Trotterized near-thermal dynamics are substantially more robust to gate and Trotter errors than assumed, enabled by linear gate-error scaling with entanglement and a random product state ensemble approximating thermal states.
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Generalized DAOE with ensemble-averaged operators shows D ∝ 1/ρ scaling at low densities and a minimal model matching charge correlations in lattice transport simulations.
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Robustness of near-thermal dynamics on digital quantum computers
Trotterized near-thermal dynamics are substantially more robust to gate and Trotter errors than assumed, enabled by linear gate-error scaling with entanglement and a random product state ensemble approximating thermal states.
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Probing hydrodynamic crossovers with dissipation-assisted operator evolution
Generalized DAOE with ensemble-averaged operators shows D ∝ 1/ρ scaling at low densities and a minimal model matching charge correlations in lattice transport simulations.