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Entangling many-body bound states with propagative modes in Bose-Hubbard systems

The quantum evolution of a cloud of bosons initially localized on part of a one dimensional optical lattice and suddenly subjected to a linear ramp is studied, realizing a quantum analog of the "Galileo ramp" experiment. The main remarkable effects of this realistic setup are revealed using analytical and numerical methods. Only part of the particles are ejected for a high enough ramp, while the others remain self-trapped. Then, the trapped density profile displays rich dynamics with Josephson-like oscillations around a plateau. This setup, by coupling bound states to propagative modes, creates two diverging condensates for which the entanglement is computed and related to the equilibrium one. Further, we address the role of integrability on the entanglement and on the damping and thermalization of simple observables.

preprint2012arXivOpen access
Mario ColluraHelge AufderheideGuillaume RouxDragi Karevski
cond-mat.quant-gasquant-ph
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Mario ColluraHelge AufderheideGuillaume RouxDragi Karevski

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