Exact quantum dynamics in finite bosonic Josephson junctions leads to breakdown of macroscopic quantum self-trapping after finite time, independent of initial state.
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A generalized coherent-state framework computes many-body density of states in irreducible sectors, supplies rigorous ground-state energy bounds, and identifies quantum and excited-state phase transitions in the LMG model and long-range Ising chains.
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Macroscopic quantum self-trapping in bosonic Josephson junctions: an exact quantum treatment
Exact quantum dynamics in finite bosonic Josephson junctions leads to breakdown of macroscopic quantum self-trapping after finite time, independent of initial state.
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A Generalized Coherent State Framework for Many-Body Density of States
A generalized coherent-state framework computes many-body density of states in irreducible sectors, supplies rigorous ground-state energy bounds, and identifies quantum and excited-state phase transitions in the LMG model and long-range Ising chains.