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Characterization of the 1S–2S transition in antihydrogen / M. Ahmadi; B. X. R. Alves; C. J. Baker; W. Bertsche; A. Capra; C. Carruth; C. L. Cesar; M. Charlton; S. Cohen; R. Collister; S. Eriksson; A. Evans; N. Evetts; J. Fajans; T. Friesen; M. C. Fujiwara; D. R. Gill; J. S. Hangst; W. N. Hardy; M. E. Hayden; C. A. Isaac; M. A. Johnson; J. M. Jones; S. A. Jones; S. Jonsell; A. Khramov; P. Knapp; L. Kurchaninov; N. Madsen; D. Maxwell; J. T. K. McKenna; S. Menary; T. Momose; J. J. Munich; K. Olchanski; A. Olin; P. Pusa; C. Ø. Rasmussen; F. Robicheaux; R. L. Sacramento; M. Sameed; E. Sarid; D. M. Silveira; G. Stutter; C. So; T. D. Tharp; R. I. Thompson; D. P. van der Werf; J. S. Wurtele

Nature, Volume: 557, Issue: 7703, Pages: 71 - 75

Swansea University Author: Charlton, Michael

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Abstract

Landmark paper. First observation of the line-shape of this fundamental transition, and determination of its centre to a few parts in 10^{12}. At this level, the line frequency is shown to be equal to that of hydrogen in the same magnetic field (by calculation).

Published in: Nature
ISSN: 0028-0836 1476-4687
Published: 2018
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa39991
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Abstract: Landmark paper. First observation of the line-shape of this fundamental transition, and determination of its centre to a few parts in 10^{12}. At this level, the line frequency is shown to be equal to that of hydrogen in the same magnetic field (by calculation).
Keywords: antihydrogen 1S-2S lineshape
College: College of Science
Issue: 7703
Start Page: 71
End Page: 75