Floquet Engineering of Correlated Tunneling in the Bose-Hubbard Model with Ultracold Atoms.

@article{Meinert2016FloquetEO,
  title={Floquet Engineering of Correlated Tunneling in the Bose-Hubbard Model with Ultracold Atoms.},
  author={F. Meinert and M. Mark and K. Lauber and A. Daley and H.-C. N{\"a}gerl},
  journal={Physical review letters},
  year={2016},
  volume={116 20},
  pages={
          205301
        }
}
  • F. Meinert, M. Mark, +2 authors H.-C. Nägerl
  • Published 2016
  • Physics, Medicine
  • Physical review letters
  • We report on the experimental implementation of tunable occupation-dependent tunneling in a Bose-Hubbard system of ultracold atoms via time-periodic modulation of the on-site interaction energy. The tunneling rate is inferred from a time-resolved measurement of the lattice site occupation after a quantum quench. We demonstrate coherent control of the tunneling dynamics in the correlated many-body system, including full suppression of tunneling as predicted within the framework of Floquet theory… CONTINUE READING
    75 Citations

    Figures and Topics from this paper.

    Explore Further: Topics Discussed in This Paper

    Floquet Dynamics in Driven Fermi-Hubbard Systems.
    • 40
    • PDF
    Quantum Entropic Self-Localization with Ultracold Fermions.
    • 4
    • PDF
    Quantum Many-Body Scars in Optical Lattices.
    • 10
    • PDF