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Improved Measurement of the Hydrogen\(1S–2S\)Transition Frequency
Christian G. Parthey ,
Arthur Matveev ,
Janis Alnis ,
Birgitta Bernhardt ,
Axel Beyer ,
Ronald Holzwarth ,
Aliaksei Maistrou ,
Randolf Pohl ,
Katharina Predehl ,
Thomas Udem ,
Tobias Wilken ,
Nikolai Kolachevsky ,
Michel Abgrall ,
Daniele Rovera ,
Christophe Salomon ,
Philippe Laurent ,
Theodor W. Hänsch
November 11 2011
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Abstract
We have measured the 1S-2S transition frequency in atomic hydrogen via two-photon
spectroscopy on a 5.8 K atomic beam. We obtain f(1S-2S) = 2,466,061,413,187,035 (10)
Hz for the hyperfine centroid, in agreement with, but 3.3 times better than the previous
result [M. Fischer et al., Phys. Rev. Lett. 92, 230802 (2004)]. The improvement to
a fractional frequency uncertainty of 4.2 × 10(-15) arises mainly from an improved
stability of the spectroscopy laser, and a better determination of the main systematic
uncertainties, namely, the second order Doppler and ac and dc Stark shifts. The probe
laser frequency was phase coherently linked to the mobile cesium fountain clock FOM
via a frequency comb.