Symmetries of potentials in many-body quantum kicked rotors at resonance produce three regimes of wavepacket spreading and bipartite entanglement entropy: quadratic growth, period-2 oscillation, or hybrid.
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Many-body dynamical localization emerges in the Fock space of a driven interacting bosonic system, suppressing transport and producing a crossover to Poisson spectral statistics.
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Dynamics of wavepackets and entanglement in many-body kicked rotors under quantum resonance
Symmetries of potentials in many-body quantum kicked rotors at resonance produce three regimes of wavepacket spreading and bipartite entanglement entropy: quadratic growth, period-2 oscillation, or hybrid.
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Many-body dynamical localization in Fock space
Many-body dynamical localization emerges in the Fock space of a driven interacting bosonic system, suppressing transport and producing a crossover to Poisson spectral statistics.