Physical Review Research (Apr 2020)

Multichannel interactions of two atoms in an optical tweezer

  • J. D. Hood,
  • Y. Yu,
  • Y.-W. Lin,
  • J. T. Zhang,
  • K. Wang,
  • L. R. Liu,
  • B. Gao,
  • K.-K. Ni

DOI
https://doi.org/10.1103/PhysRevResearch.2.023108
Journal volume & issue
Vol. 2, no. 2
p. 023108

Abstract

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The multichannel Na-Cs interactions are characterized by a series of measurements using two atoms in an optical tweezer, along with a multichannel quantum defect theory (MQDT) with minimal input parameters. The triplet and singlet scattering lengths are measured by performing Raman spectroscopy of the Na-Cs motional states and least-bound molecular state in the tweezer. The two-scale MQDT improves accuracy over the single-scale model by incorporating the −C_{8}/r_{8} potential in addition to the −C_{6}/r_{6} potential. Magnetic Feshbach resonances are observed for only two atoms at fields which agree to within 1% of the MQDT predictions. Our tweezer-based approach, combined with an effective theory of interaction, provides a methodology for future studies of more complex interactions, such as atom-molecule and molecule-molecule interactions, and where the traditional high-phase-space-density bulk-gas techniques are technically challenging.