Physical Review X (Sep 2023)

Microwave Shielding of Bosonic NaRb Molecules

  • Junyu Lin,
  • Guanghua Chen,
  • Mucan Jin,
  • Zhaopeng Shi,
  • Fulin Deng,
  • Wenxian Zhang,
  • Goulven Quéméner,
  • Tao Shi,
  • Su Yi,
  • Dajun Wang

DOI
https://doi.org/10.1103/PhysRevX.13.031032
Journal volume & issue
Vol. 13, no. 3
p. 031032

Abstract

Read online Read online

Recent years have witnessed tremendous progress in creating and manipulating ground-state ultracold polar molecules. However, the two-body loss regardless of the chemical reactivities is still a hurdle for many future explorations. Here, we investigate the loss suppression of nonreactive bosonic ^{23}Na^{87}Rb molecules with a circularly polarized microwave blue detuned to the rotational transition. We achieve suppression of the loss by 2 orders of magnitude with the lowest two-body loss rate coefficient reduced to 3×10^{-12} cm^{3}/s. Meanwhile, the elastic collision rate coefficient is increased to the 10^{-8} cm^{3}/s level. The large good-to-bad collision ratio has allowed us to carry out evaporative cooling of ^{23}Na^{87}Rb with an efficiency of 1.7(2), increasing the phase-space density by a factor of 10. With further improvements, this technique holds great promises for creating a Bose-Einstein condensate of ultracold polar molecules.