A new method separates universal combinatorial structures from system-specific quantities to efficiently approximate many-body density of states for identical particles with tunable accuracy.
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Two-frequency Floquet driving causes resonant breakdown of disorder-suppressed heating in a 13C spin network in diamond, explained by stochastic electron-spin noise tuning clusters into multi-photon resonance.
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Structures of Identical Particle Systems : Efficient Computation of Many-Body Density of States
A new method separates universal combinatorial structures from system-specific quantities to efficiently approximate many-body density of states for identical particles with tunable accuracy.
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Breakdown of Disorder-Suppressed Floquet Heating under Two-Frequency Driving
Two-frequency Floquet driving causes resonant breakdown of disorder-suppressed heating in a 13C spin network in diamond, explained by stochastic electron-spin noise tuning clusters into multi-photon resonance.