Bulletin of the American Physical Society
53rd Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics
Volume 67, Number 7
Monday–Friday, May 30–June 3 2022; Orlando, Florida
Session S11: Focus Session: Collisions in Extreme Settings
10:30 AM–12:30 PM,
Thursday, June 2, 2022
Room: Grand Ballroom E
Chair: Svetlana Kotochigova, Temple
Abstract: S11.00002 : Control of He*-Li chemi-ionization*
11:00 AM–11:30 AM
Presenter:
Katrin Dulitz
(University of Freiburg)
Authors:
Katrin Dulitz
(University of Freiburg)
Tobias Sixt
(University of Freiburg)
Jiwen Guan
(University of Freiburg)
Jonas Grzesiak
(University of Freiburg)
Markus Debatin
(University of Freiburg)
Frank Stienkemeier
(University of Freiburg)
As a first step towards co-trapping, we study the chemi-ionization of ultracold Li by metastable He (He*). For this, we combine a supersonic-beam source for He* with a magneto-optical trap for Li [1]. To distinguish in between the contributions of He(23S1) and He(21S0) to the ionization rate, we deplete the He* population in the 21S0 state using a novel laser-excitation scheme [2]. We also use laser-optical pumping to prepare both He(23S1) and Li(22S1/2) in selected magnetic sub-levels prior to the collision [3].
Here, we demonstrate the efficient control of He*-Li chemi-ionization at thermal energies using spin- and quantum-state preparation. Our results imply a strong suppression (enhancement) of chemi-ionization for non-spin-conserving (spin-conserving) reaction channels. These results are in good agreement with a model based on spin angular momentum coupling of the prepared atomic states to the molecular reaction channels. Small deviations from the model are indicative for a violation of spin-conservation rules. The ionization rate also decreases when Li is laser-excited to the 22P1/2,3/2 states. This is due to the conservation of the projection of the total molecular orbital angular momentum along the internuclear axis [4].
[1] Grzesiak, J. et al., J. Chem. Phys. 150, 034201 (2019).
[2] Guan, J. et al., Phys. Rev. Appl. 11, 054037 (2019).
[3] Sixt, T. et al., Rev. Sci. Instrum. 92, 073203 (2021).
[4] Dulitz, K. et al., Phys. Rev. A 102, 022818 (2020).
*This work is funded by the German Research Foundation (Project No. DU1804/1-1), the Chemical Industry Fund and the University of Freiburg.
Follow Us |
Engage
Become an APS Member |
My APS
Renew Membership |
Information for |
About APSThe American Physical Society (APS) is a non-profit membership organization working to advance the knowledge of physics. |
© 2024 American Physical Society
| All rights reserved | Terms of Use
| Contact Us
Headquarters
1 Physics Ellipse, College Park, MD 20740-3844
(301) 209-3200
Editorial Office
100 Motor Pkwy, Suite 110, Hauppauge, NY 11788
(631) 591-4000
Office of Public Affairs
529 14th St NW, Suite 1050, Washington, D.C. 20045-2001
(202) 662-8700