Progress towards a precision measurement of the n=2 triplet P fine structure of atomic helium

K. Kato; D. W. Fitzakerley; M. C. George; A. C. Vutha; C. H. Storry; E. A. Hessels

Progress towards a precision measurement of the n=2 triplet P fine structure of atomic helium

POSTER

Abstract

We report progress on the measurement of the $J$=1 to $J$=2 2$^3$P fine-structure interval of atomic helium. The measurement uses a liquid-nitrogen-cooled DC discharge source of metastable helium and the atomic beam is laser cooled in the transverse directions. The atoms are excited to 2$^3$P by a 1083-nm diode laser, and the fine-structure transition is driven by microwaves using the frequency-offset separated oscillatory fields technique [Phys. Rev. A 92, 052504 (2015)]. The transition is detected by further laser excitation to a Rydberg state, followed by Stark ionization.

^*This work is supported by NSERC, CRC.

Authors

K. Kato
- York University
D. W. Fitzakerley
- York University
M. C. George
- York University
A. C. Vutha
- University of Toronto
C. H. Storry
- York University
E. A. Hessels
- York University