Tuning generalized t-J spin dynamics of polar molecules

ORAL

Abstract

Dipolar interactions drastically change the dynamics of itinerant particles. In this work, we realized a generalized t-J spin model by encoding spin in the two lowest rotational levels of KRb molecules. We systematically explored regimes of the model inaccessible on other platforms through independent tuning of tunneling rate and spin-spin interaction strength. We observed Ramsey contrast decay that depends strongly on the anisotropy between spin-exchange and Ising interactions as well as on motion. Theoretical models support our observations and provide insight into the underlying phenomena for their respective motional regimes. We will also present latest progress in producing lower temperature molecules to access new dynamics. Our work enables future studies of spin dynamics of interacting, itinerant particles for systems with lower doping, where theoretical modeling becomes challenging, further solidifying polar molecules as a versatile platform for quantum simulation.

[1] Carroll et al., arXiv 2404.18916

*This material is based upon work supported by the National Science Foundation grant no. QLCI OMA-2016244. Additional support is acknowledged from the US Department of Energy, Office of Science, National Quantum Information Science Research Centers, Quantum Systems Accelerator, ARO and AFOSR MURIs, the JILA Physics Frontier Center grant no. PHY-2317149, the National Science Foundation grant no. PHY-2110327, the ARO single investigator Award No. W911NF-24-1-0128, and the National Institute of Standards and Technology. A.N.C acknowledges support from the National Science Foundation Graduate Research Fellowship under grant no. DGE 2040434. C.M. acknowledges support from the Department of Defense through the NDSEG Graduate Fellowship. S.R.M. acknowledges support from the National Science Foundation under grant no. QLCI OMA-2120757. K.P.Z. acknowledges support from the Austrian Science Fund (FWF) under grant no. W1259-N27.

Publication: [1] Carroll et al., arXiv 2404.18916

Presenters

  • Annette N Carroll

    • University of Colorado, Boulder

Authors

  • Annette N Carroll

    • University of Colorado, Boulder

  • Henrik Hirzler

    • University of Colorado, Boulder

  • Calder Miller

    • CU Boulder

  • David Wellnitz

    • University of Colorado Boulder
    • JILA

  • Sean Robert Muleady

    • University of Maryland College Park

  • Junyu Lin

    • JILA

  • Krzysztof P Zamarski

    • JILA

  • Reuben Wang

    • ITAMP Center for Astrophysics | Harvard & Smithsonian
    • JILA

  • John L Bohn

    • University of Colorado, Boulder

  • Ana Maria Rey

    • JILA, University of Colorado, Boulder
    • University of Colorado, Boulder
    • JILA, University of Colorado Boulder
    • JILA, CU Boulder

  • Jun Ye

    • University of Colorado, Boulder
    • JILA, National Institute of Standards and Technology and University of Colorado and Department of Physics, University of Colorado, Boulder