Formation of bosonic 23Na41K Feshbach molecules

Abstract

Ultracold Feshbach molecules are a crucial intermediate step for the creation of quantum degenerate gases of strongly dipolar molecules. After coherent transfer to the rovibrational ground state, these dimers can realize stable dipolar gases with strong, tunable long-range interactions. Here, we report the creation of bosonic 23Na41K Feshbach molecules by radio-frequency (RF) association. An RF pulse applied on the molecular side of an interspecies Feshbach resonance at 73.6(1)~G associates up to 1.1(1)×104 molecules from a thermal mixture of 23Na and 41K atoms. Measurements of the binding energy reveal a broad resonance width of 5.1(2)~G, facilitating robust control over interspecies interactions. The molecule lifetime in the presence of background atoms exceeds 2~ms, extending to 7~ms after removal of 23Na. These results constitute a key step toward the production of ultracold 23Na41K ground state molecules for the exploration of novel many-body phenomena in strongly dipolar Bose gases.

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