Microscopic studies of doped cold-atom Fermi-Hubbard antiferromagnets

ORAL

Abstract

The experimental platform of ultracold fermionic atoms in optical lattices offers new perspectives for studying the physics of strongly correlated materials. We use this platform to implement the Fermi-Hubbard model, a paradigmatic model thought to capture the physics of high-temperature superconductivity, the pseudogap, and other phenomena containing longstanding open questions. The additional tool of quantum gas microscopy enables site-resolved readout and access to projections of the many-body wavefunction in the Fock basis. I will report on our most recent studies of doped antiferromagnets, where there is no universally agreed-upon mechanism for the interplay between hole motion and antiferromagnetic order.

Presenters

  • Christie S Chiu

    • Harvard University

Authors

  • Christie S Chiu

    • Harvard University

  • Geoffrey Ji

    • Harvard University
    • Physics Department, Harvard University

  • Annabelle Bohrdt

    • Physics Department, Technical University of Munich
    • Harvard University and Technical University of Munich
    • Harvard University and Technical Unversity of Munich
    • Physics, TU Munich
    • Technical University of Munich

  • Muqing Xu

    • Harvard University
    • Physics Department, Harvard University

  • Justus Brüggenjürgen

    • Harvard University and University of Hamburg
    • University of Hamburg and Harvard University

  • Michael Knap

    • Physics Department, Technical University of Munich
    • Technical University of Munich
    • Department of Physics, Technical University of Munich

  • Eugene Demler

    • Physics Department, Harvard University
    • Harvard University

  • Fabian Grusdt

    • Physics Department, Technical University of Munich
    • Department of Physics and Institute for Advanced Study, Technical University of Munich, 85748 Garching
    • Harvard University
    • Technical University of Munich

  • Markus Greiner

    • Harvard University
    • Physics Department, Harvard University

  • Daniel Greif

    • Harvard University
    • Physics Department, Harvard University