Bulletin of the American Physical Society
54th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics
Volume 68, Number 7
Monday–Friday, June 5–9, 2023; Spokane, Washington
Session V01: Poster Session III (4:00pm-6:00pm, PT)
4:00 PM,
Thursday, June 8, 2023
Room: Exhibit Hall C
Abstract: V01.00087 : Creation of an Ultracold Gas of Ground State Dipolar 6Li40K Molecules*
Presenter:
Xiaoyu Nie
(Natl Univ of Singapore)
Authors:
Xiaoyu Nie
(Natl Univ of Singapore)
Canming He
(Natl Univ of Singapore)
Victor Andre Avalos Pinillos
(Natl Univ of Singapore)
Sunil Kumar
(Natl Univ of Singapore)
Sofia Botsi
(Centre for Quantum Technologies, National University of Sing)
Anbang Yang
(Natl Univ of Singapore)
Kai Dieckmann
(Natl Univ of Singapore)
Firstly, we demonstrate a high-effient STIRAP (~98% one-way transfer efficiency) and Raman process (~93% one-way transfer efficiency) that transfers Feshbach molecules to the ro-vibrational ground state molecules in the optical dipole trap. Specifically, the diode lasers was found to have high integrated phase noise around 200 mrad (4% of the total laser power), which is considered as the main reason for the failure of previous attempts. To reduce the noise, we extend the diode lasers' cavity from 3 cm to 20 cm. 75% reduction of the integrated phase noise was achieved for the Pump and Stokes lasers. The effect of laser polarization impurity on the STIRAP efficiency is estimated based on numerical methods and our far-detuned Raman transfer result. The loss can be suppressed by increasing the single photon detuning Δ. Our transfer regime involves only singlet states by utilizing deeply bound vibrational states of the ??1Σ+ excited potential as intermediate states, therefore the hyperfine structure of the excited state is unresolved. Stark shift has also been measured to indicate the induced dipole moment.
Secondly, we perform the dark resonant spectroscopy on the J=2 rotational state, and minimize the error of rotational constant B0 toward ~20 kHz. Then, we conduct the rotational microwave spectroscopy on the ground state molecules to transfer them into J=1 rotational hyperfine states. Rabi oscillation between J=0 ground state and J=1 excited state is also observed.
*We acknowledge the supported by the National Research Foundation, Prime Ministers Office, Singapore and the Ministry of Education, Singapore under the Research Centres of Excellence program, Singapore Ministry of Education Academic Research Fund Tier 2 (Grant No. MOE2015-T2-1-098).
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