Nagaoka polarons in a Fermi-Hubbard system

ORAL

Abstract

Nagaoka famously proved that introducing a single itinerant charge to the half-filled Fermi-Hubbard model can transform a paramagnetic insulator into a ferromagnet through path interference. However, such kinetic magnetism induced by individually imaged dopants has only recently been observed with strongly interacting fermions in a triangular optical lattice [1,2]. In this talk, I will give a quick summary of the experimental findings, including the emergence of Nagaoka polarons as extended ferromagnetic bubbles around particle dopants, and present theory results in support of these observations from simulations of the model using the numerical linked-cluster expansions.

*E.K. and P.S. were supported from the NSF under Grant No. DMR-1918572.

Publication: [1] Lebrat et al., arXiv:2308.12269
[2] Prichard et al., arXiv:2308.12951

Presenters

  • Ehsan Khatami

    • San Jose State University

Authors

  • Ehsan Khatami

    • San Jose State University

  • Martin Lebrat

    • Harvard University

  • Muqing Xu

    • Harvard University

  • Lev H Kendrick

    • Harvard University

  • Anant Kale

    • Harvard University

  • Youqi Gang

    • Harvard University

  • Pranav Seetharaman

    • San Jose State University

  • Ivan Morera

    • Universitat de Barcelona
    • University of Barcelona

  • Eugene Demler

    • ETH
    • ETH Zurich
    • ETH Zürich
    • Institute for Theoretical Physics, ETH Zürich, 8093, Zürich, Switzerland

  • Markus Greiner

    • Harvard University