Measurement of the 2S1/2-8D5/2 Transition in Atomic Hydrogen

Adam Brandt; Samuel F Cooper; Cory Rasor; Zak Burkley; Dylan C Yost

Measurement of the 2S<sub>1/2</sub>-8D<sub>5/2 </sub>Transition in Atomic Hydrogen

ORAL

Abstract

Spectroscopy of atomic hydrogen plays a vital role in precision tests of quantum electrodynamics, and in the determination of the Rydberg constant and proton charge radius. Here, we present a measurement of the 2S_1/2-8D_5/2transition on a cryogenic beam of atomic hydrogen. The measured frequency is 770649561570.9(2.0) kHz, which represents a relative uncertainty of 2.6 x 10^-12 -- a three-fold improvement over the previous best measurement. We will discuss our characterization of the systematic effects with a focus on the ac- and dc-Stark shifts. Combining our measurement with the most recent measurement of the 1S-2S transition in atomic hydrogen, we extract a proton radius that has a combined 3.1σ disagreement with the most recent CODATA 2018 recommended value.

^*NIST Precision Measurement Grant (60NANB16D270)NSF CAREER Program (1654425)

May 31, 2022, 2:30 PM – May 31, 2022, 2:42 PM

Publication: A. D. Brandt, et. al., Phys. Rev. Lett. 128, 023001 (2022).

Presenters

Adam Brandt
- Colorado State University
- University of Colorado Boulder
- NIST/University of Colorado at Boulder
- NIST / University of Colorado, Boulder

Authors

Adam Brandt
- Colorado State University
- University of Colorado Boulder
- NIST/University of Colorado at Boulder
- NIST / University of Colorado, Boulder
Samuel F Cooper
- Colorado State University
Cory Rasor
- Colorado State University
Zak Burkley
- ETH Zurich
Dylan C Yost
- Colorado State University