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Realization of a doped quantum antiferromagnet in a Rydberg tweezer array

ORAL

Abstract

Doping an antiferromagnetic (AFM) Mott insulator is central to our understanding of a variety of phenomena in strongly-correlated electrons. To describe the competition between tunneling t of hole dopants and AFM spin interactions J, theoretical and numerical studies often focus on the paradigmatic t-J model. Here, we realize a doped quantum antiferromagnet with next-nearest neighbour (NNN) tunnelings t' and hard-core bosonic holes using a Rydberg tweezer platform. We utilize coherent dynamics between three Rydberg levels, encoding spins and holes, to implement a tunable bosonic t-J-V model allowing us to study previously inaccessible parameter regimes. We observe dynamical phase separation between hole and spin domains, and demonstrate the formation of repulsively bound hole pairs.

Publication: https://arxiv.org/abs/2501.08233

Presenters

  • Lukas Homeier

    JILA, Ludwig-Maximilians-Universitaet (LMU-Munich)

Authors

  • Lukas Homeier

    JILA, Ludwig-Maximilians-Universitaet (LMU-Munich)

  • Mu Qiao

    Tsinghua University

  • Gabriel Emperauger

    Institut d'Optique Graduate School

  • Cheng Chen

    Tsinghua University

  • Simon Hollerith

  • Guillaume Bornet

    Princeton University, Institut d'Optique Graduate School

  • Romain Martin

    Institut d'Optique Graduate School

  • Bastien Gely

    Institut d'Optique Graduate School

  • Lukas Klein

    Institut d'Optique Graduate School

  • Daniel Barredo

    Institut d'Optique Graduate School

  • Sebastian Geier

    Heidelberg University in Germany

  • Neng-Chun Chiu

  • Fabian Grusdt

    Ludwig-Maximilians-Universitaet (LMU-Munich), LMU Munich; MCQST, LMU Munich, LMU Munich and Munich Center for Quantum Science and Technology (MCQST)

  • Annabelle Bohrdt

    University of Regensburg

  • Thierry Lahaye

    CNRS/THALES

  • Antoine Browaeys

    Institut d'Optique Graduate School