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Paper detail

Parametric instabilities of interacting bosons in periodically-driven 1D optical lattices

Periodically-driven quantum systems are currently explored in view of realizing novel many-body phases of matter. This approach is particularly promising in gases of ultracold atoms, where sophisticated shaking protocols can be realized and inter-particle interactions are well controlled. The combination of interactions and time-periodic driving, however, often leads to uncontrollable heating and instabilities, potentially preventing practical applications of Floquet-engineering in large many-body quantum systems. In this work, we experimentally identify the existence of parametric instabilities in weakly-interacting Bose-Einstein condensates in strongly-driven optical lattices through momentum-resolved measurements. Parametric instabilities can trigger the destruction of weakly-interacting Bose-Einstein condensates through the rapid growth of collective excitations, in particular in systems with weak harmonic confinement transverse to the lattice axis.

preprint2019arXivOpen access
K. WinterspergerM. BukovJ. NägerS. LellouchE. DemlerU. SchneiderI. BlochN. GoldmanM. Aidelsburger
cond-mat.quant-gasquant-ph
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K. WinterspergerM. BukovJ. NägerS. LellouchE. DemlerU. SchneiderI. BlochN. GoldmanM. Aidelsburger

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