Absolute Frequency Measurements of the Hg^+ and Ca Optical Clock Transitions with a Femtosecond Laser

C. W. Oates; E. A.Curtis; J. C. Bergquist; K. R. Vogel; L. Hollberg; R. E. Drullinger; S. A. Diddams; Th. Udem; W. D. Lee; W. M. Itano

arxiv: physics/0101029 · v1 · submitted 2001-01-04 · ⚛️ physics.atom-ph · physics.optics

Absolute Frequency Measurements of the Hg^+ and Ca Optical Clock Transitions with a Femtosecond Laser

Th. Udem , S. A. Diddams , K. R. Vogel , C. W. Oates , E. A.Curtis , W. D. Lee , W. M. Itano , R. E. Drullinger

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J. C. Bergquist L. Hollberg

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classification ⚛️ physics.atom-ph physics.optics

keywords frequenciesatomicfemtosecondfindfrequencylasermeasurementsoptical

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The frequency comb created by a femtosecond mode-locked laser and a microstructured fiber is used to phase coherently measure the frequencies of both the Hg^+ and Ca optical standards with respect to the SI second as realized at NIST. We find the transition frequencies to be f_Hg=1 064 721 609 899 143(10) Hz and f_Ca=455 986 240 494 158(26) Hz, respectively. In addition to the unprecedented precision demonstrated here, this work is the precursor to all-optical atomic clocks based on the Hg^+ and Ca standards. Furthermore, when combined with previous measurements, we find no time variations of these atomic frequencies within the uncertainties of |(df_Ca/dt)/f_Ca| < 8 x 10^{-14} yr^{-1}, and |(df_Hg/dt)/f_Hg|< 30 x 10^{-14} yr^{-1}.

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Absolute Frequency Measurements of the Hg^+ and Ca Optical Clock Transitions with a Femtosecond Laser

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