Title :
An optical frequency standard with ultracold calcium atoms
Author :
Sterr, U. ; Degenhardt, C. ; Stoehr, H. ; Schnatz, H. ; Helmcke, J. ; Riehle, F.
Author_Institution :
Phys.-Tech. Bundesanstalt, Braunschweig
Abstract :
An optical frequency standard is operated at PTB where the frequency of a laser is stabilized to the inter- combination transition (lambdaap 657 nm) in laser cooled Ca atoms. Previously the uncertainty resulting from the residual velocity of the cold atoms at 3 mK limited the fractional uncertainty to 2 times 10-14. We now apply a novel method for producing ultra-cold atoms (T ap 10 muK). The frequency of the intercombination line has been measured with respect to the Cs hyperfine transition over eight years and a first frequency measurement with ultracold atoms has now been performed where the contributions from the residual velocity become insignificant at that level of uncertainty. A fractional uncertainty below 10-15 is expected for the near future.
Keywords :
atom-photon collisions; atomic clocks; calcium; frequency standards; laser cooling; laser frequency stability; measurement uncertainty; Ca; Cs hyperfine transition; calcium atoms; fractional uncertainty; frequency measurement; intercombination transition; laser cooling; laser frequency stabilization; optical clocks; optical frequency standard; temperature 10 muK; ultracold atoms; wavelength 657 nm;
Conference_Titel :
Frequency and Time Forum, 2004. EFTF 2004. 18th European
Conference_Location :
Guildford
Print_ISBN :
0-86341-384-6
