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Collisions of ultracold 23Na87Rb molecules with controlled chemical reactivities.


ABSTRACT: The collision of molecules at ultracold temperatures is of great importance to understand the chemical interactions at the quantum regime. Although much theoretical work has been devoted to this, experimental data are only sparsely available, mainly because of the difficulty in producing ground-state molecules at ultracold temperatures. We report here the creation of optically trapped samples of ground-state bosonic sodium-rubidium molecules with precisely controlled internal states and, enabled by this, a detailed study on the inelastic loss with and without the NaRb + NaRb ? Na2 + Rb2 chemical reaction. Contrary to intuitive expectations, we observed very similar loss and heating, regardless of the chemical reactivities. In addition, as evidenced by the reducing loss rate constants with increasing temperatures, we found that these collisions are already outside the Wigner region although the sample temperatures are sub-microkelvin. Our measurement agrees semiquantitatively with models based on long-range interactions but calls for a deeper understanding on the short-range physics for a more complete interpretation.

SUBMITTER: Ye X 

PROVIDER: S-EPMC5786443 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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Collisions of ultracold <sup>23</sup>Na<sup>87</sup>Rb molecules with controlled chemical reactivities.

Ye Xin X   Guo Mingyang M   González-Martínez Maykel L ML   Quéméner Goulven G   Wang Dajun D  

Science advances 20180126 1


The collision of molecules at ultracold temperatures is of great importance to understand the chemical interactions at the quantum regime. Although much theoretical work has been devoted to this, experimental data are only sparsely available, mainly because of the difficulty in producing ground-state molecules at ultracold temperatures. We report here the creation of optically trapped samples of ground-state bosonic sodium-rubidium molecules with precisely controlled internal states and, enabled  ...[more]

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