Creation of an ultracold gas of ground-state 23Na87Rb molecules

Abstract

We report the successful production of an ultracold sample of absolute ground-state 23Na87Rb molecules. Starting from weakly-bound Feshbach molecules formed via magneto-association, the lowest rovibrational and hyperfine level of the electronic ground state is populated following a high efficiency and high resolution two-photon Raman process. The high purity absolute ground-state samples have up to 8000 molecules and densities of over 1011 cm-3. By measuring the Stark shifts induced by external electric fields, we determined the permanent electric dipole moment of the absolute ground-state 23Na87Rb and demonstrated the capability of inducing an effective dipole moment over one Debye. Bimolecular reaction between ground-state 23Na87Rb molecules is endothermic, but we still observed a rather fast decay of the molecular sample. Our results pave the way toward investigation of ultracold molecular collisions in a fully controlled manner, and possibly to quantum gases of ultracold bosonic molecules with strong dipolar interactions.