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Showing 1–5 of 5 results
Advanced filters: Author: Manuele Landini Clear advanced filters

  • Emergent anyonic correlations via spin–charge separation are observed in a one-dimensional strongly interacting quantum gas, enabling the exploration of non-equilibrium anyonic phenomena in a highly controllable setting.

    • Sudipta Dhar
    • Botao Wang
    • Hanns-Christoph Nägerl
    ResearchOpen Access
    Nature
    Volume: 642, P: 53-57

  • Experimental evidence is presented for a new implementation of supersolidity in a driven-dissipative, non-equilibrium context realized in a photonic-crystal waveguide, demonstrating the breaking of translational symmetry with exceptionally low losses.

    • Dimitrios Trypogeorgos
    • Antonio Gianfrate
    • Daniele Sanvitto
    Research
    Nature
    Volume: 639, P: 337-341

  • Bose-Einstein condensates (BEC) of ultracold atoms serve as low-entropy sources for a multitude of quantum-science applications. Here, the authors realize a non-ground-state caesium BEC with tunable interactions and tunable loss, opening up new possibilities for polaron and impurity physics.

    • Milena Horvath
    • Sudipta Dhar
    • Hanns-Christoph Nägerl
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-7

  • Quantum systems exhibit vastly different properties depending on their dimensionality. An experimental study with ultracold bosons now tracks quantum correlation properties during the crossover from two dimensions to one dimension.

    • Yanliang Guo
    • Hepeng Yao
    • Hanns-Christoph Nägerl
    Research
    Nature Physics
    Volume: 20, P: 934-938

  • The simplest form of the Hubbard model includes only on-site interactions, but by placing an optical lattice filled with ultracold rubidium atoms into an optical cavity the Hubbard model is implemented with competing long- and short-range interactions; four phases emerge, namely, a superfluid phase, a Mott insulating phase, a supersolid phase and a charge density wave phase.

    • Renate Landig
    • Lorenz Hruby
    • Tilman Esslinger
    Research
    Nature
    Volume: 532, P: 476-479