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Showing 1–10 of 10 results
Advanced filters: Author: Francesca Ferlaino Clear advanced filters

  • Magnetostirring is used to rotate the magnetic field and set a dipolar supersolid composed of ultracold atoms spinning, revealing fundamental differences in vortex seeding dynamics between modulated and unmodulated quantum fluids.

    • Eva Casotti
    • Elena Poli
    • Francesca Ferlaino
    Research
    Nature
    Volume: 635, P: 327-331

  • Devices known as magneto-optical traps have long been used to cool and confine atoms, but not molecules — until now. This new ability should enable many studies and applications of the physics of ultracold molecules. See Letter p.286

    • Francesca Ferlaino
    News & Views
    Nature
    Volume: 512, P: 261-262

  • Ultracold gases composed of lanthanide atoms are characterized by long-range dipolar interactions. These have now been exploited to observe quantized vortices in a dipolar condensate through the manipulation of the atoms by rotating external magnetic fields.

    • Lauritz Klaus
    • Thomas Bland
    • Francesca Ferlaino
    ResearchOpen Access
    Nature Physics
    Volume: 18, P: 1453-1458

  • A supersolid is a phase of matter featuring both crystalline order as a solid and global phase coherence as a superfluid. Now an experiment shows how this global phase coherence can be established across the system in a non-equilibrium process.

    • P. Ilzhöfer
    • M. Sohmen
    • F. Ferlaino
    Research
    Nature Physics
    Volume: 17, P: 356-361

  • The realization of dipolar quantum solids with an ultracold gas of magnetic atoms in an optical lattice ushers in quantum simulation of many-body systems with long-range anisotropic interactions.

    • Lin Su
    • Alexander Douglas
    • Markus Greiner
    Research
    Nature
    Volume: 622, P: 724-729

  • An ultracold gas of erbium atoms is shown to have many scattering resonances whose quantum fluctuations exhibit chaotic behaviour resulting from the anisotropy of the atoms’ interactions.

    • Albert Frisch
    • Michael Mark
    • Svetlana Kotochigova
    Research
    Nature
    Volume: 507, P: 475-479

  • The detailed structure of each atomic species determines what physics can be achieved with ultracold gases. This review discusses the exciting applications that follow from lanthanides’ complex electronic structure.

    • Matthew A. Norcia
    • Francesca Ferlaino
    Reviews
    Nature Physics
    Volume: 17, P: 1349-1357

  • Quantum fluctuations stabilize dense self-bound macroscopic quantum states in quantum gases. This work places an Erbium dipolar ultracold atomic gas with dominantly attractive long-range interactions in a 1D periodic lattice, and uses interferometric techniques and numerical modeling to characterize the importance of beyond mean-field effects, revealing the emergence of spatially-extended and single-site localized (2D) droplets and signatures of an anisotropic 2D soliton.

    • Gabriele Natale
    • Thomas Bland
    • Francesca Ferlaino
    ResearchOpen Access
    Communications Physics
    Volume: 5, P: 1-8

  • The roton energy spectrum, originally introduced by Landau, explains the thermodynamic behaviour of strongly interacting liquid helium at low temperature. Now, a similar spectrum has been observed in weakly interacting dipolar quantum gas.

    • L. Chomaz
    • R. M. W. van Bijnen
    • F. Ferlaino
    Research
    Nature Physics
    Volume: 14, P: 442-446