Microwave Measurement of the n=2 Triplet P J=1-to-J=2 Fine-Structure Interval of Helium

J.S. Borbely; M.C. George; L.D. Lombardi; M. Weel; D.W. Fitzakerley; E.A. Hessels

Microwave Measurement of the n=2 Triplet P J=1-to-J=2 Fine-Structure Interval of Helium

POSTER

Abstract

The n=2 triplet P J=1-to-J=2 interval in helium has been measured to a precision of 350 Hz using the Ramsey method of separated oscillatory field. This 350-Hz measurement is the most precise to date of the n=2 triplet structure. Comparison between precise measurements of the n=2 triplet P fine structure and theoretical predictions will allow for a precise determination of the fine-structure constant when the current large discrepancy between experiment (PRL \textbf{95} 203001; PRL \textbf{87} 173002; PRL \textbf{84} 4321; Can J Phys \textbf{83} 301) and theory (PRL \textbf{97} 013002; Can J Phys \textbf{80} 1195) is resolved.

^*This work is supported by NSERC, CRC and CFI.

Authors

J.S. Borbely
- Department of Physics and Astronomy, York University
M.C. George
- Department of Physics and Astronomy, York University
L.D. Lombardi
- Department of Physics and Astronomy, York University
M. Weel
- Department of Physics and Astronomy, York University
D.W. Fitzakerley
- Department of Physics and Astronomy, York University
E.A. Hessels
- Department of Physics and Astronomy, York University