Detection of the Bose-Einstein condensation of NaRb molecules

ORAL

Abstract

Recent achievements in degenerate dipolar molecular gases [1,2,3,4] point an exciting future of exploration of many body system with tunable, long range, anisotropic interaction. Detection of such low temperature quantum gases and avoiding extra heating are crucial steps to extract the real information. Here we report on a method to detect the BEC of NaRb molecules [4]. Our approach contains two parts. We control the Raman laser beams by a galvo to follow the dropping of microwave shielded ground state molecules during time of flight and dissociate the ground state molecules to free atoms at the end of TOF by STIRAP pulse for detection. We demonstrate that this method can significantly suppress the loss and avoid heating during final detection and help us to distinguish the different phases of condensates.

*This work was supported by the Hong Kong RGC General Research Fund (Grants 14302722 and 14304323), and the Collaborative Research Fund C6009-20GF.

Publication: [1] De Marco, L. et al. A degenerate Fermi gas of polar molecules. Science 363, 853–856 (2019).
[2] Schindewolf, A. et al. Evaporation of microwave-shielded polar molecules to quantum degeneracy. Nature 607, 677–681 (2022).
[3] Bigagli, N., Yuan, W., Zhang, S. et al. Observation of Bose–Einstein condensation of dipolar molecules. Nature 631, 289–293 (2024).
[4] A molecular Bose-Einstein condensation with highly tunable dipole-dipole interaction(In preparation).

Presenters

  • Zhaopeng Shi

    • Department of Physics, The Chinese University of Hong Kong

Authors

  • Zhaopeng Shi

    • Department of Physics, The Chinese University of Hong Kong

  • Zerong Huang

    • The Chinese University of Hong Kong
    • Department of Physics, The Chinese University of Hong Kong

  • Dajun Wang

    • Chinese University of Hong Kong
    • Department of Physics, The Chinese University of Hong Kong