Title :
An optical frequency standard based on the 2S1/2—2F7/2 transition in 171Yb+
Author :
Webster, S.A. ; Stannard, A. ; Hosaka, K. ; Gill, P.
Author_Institution :
Nat. Phys. Lab., Teddington, UK
Abstract :
The 2S1/2 (F = 0) - 2F7/2 (F = 3, mF = 0) transition at 467 nm in a single, trapped, laser cooled ion of 171Yb+ has the potential to be an extremely accurate optical frequency reference. Systematic shifts have been evaluated and are currently dominated by the ac-Stark shift. However, this is not expected to be the case as probe laser linewidth is reduced. A heterodyne measurement of the probe laser shows it to have a width of 20 Hz on a 1 minute timescale. The atomic spectrum on the other hand, has been found to have a broadened width of 200 Hz. Using heterodyne detection of light reflected from the trap electrodes, Doppler shifting due to vibration of the trap is identified as the additional source of broadening.
Keywords :
Doppler shift; Stark effect; atom-photon collisions; frequency standards; heterodyne detection; laser cooling; light reflection; positive ions; radiation pressure; spectral line broadening; trapped ions; vibrational states; ytterbium; 171Yb+; Doppler shifting; ac-Stark shift; atomic spectrum; heterodyne measurement; light reflection; optical frequency reference; optical frequency standard; probe laser linewidth; single trapped laser cooled ion; spectral broadening; trap electrodes; wavelength 467 nm; Absorption; Atomic measurements; Cavity resonators; Laser transitions; Measurement by laser beam; Probes; Systematics;
Conference_Titel :
Frequency and Time Forum (EFTF), 2006 20th European
Conference_Location :
Braunschweig
Print_ISBN :
978-1-4673-2642-1
