Progress Toward an Optical Frequency Standard Based on a Single Indium Ion

Author

Wang, Y.H. ; Liu, T. ; Stejskal, A. ; Zhao, Y.N. ; Zhang, J. ; Lu, Z.H. ; Dumke, R. ; Wang, L.J. ; Becker, Th ; Walther, H.

Author_Institution

Max Planck Res. Group, Univ. Erlangen-Nuremberg, Erlangen

fYear

2006

fDate

38869

Firstpage

415

Lastpage

419

Abstract

We report on the current status of the optical frequency standard based on a single ¹¹⁵In⁺ ion. A single indium ion is being trapped in a Paul-Strauble type trap and cooled in combination of Doppler cooling and sideband cooling to its lowest vibrational states. To interrogate the ¹S₀-³P₀ clock transition with high accuracy we demonstrate a Hz-level laser system resonant to this transition. With the current setup we are able to achieve a measured linewidth of the clock transition of 260 Hz. The statistical uncertainty of the absolute frequency measurement is 3 times 10^-13, limited mainly by our reference frequency standard

Keywords

atomic clocks; frequency standards; indium; positive ions; spectral line breadth; vibrational states; 260 Hz; ¹¹⁵In⁺; Doppler cooling; Hz-level laser system resonant; Paul-Strauble type trap; absolute frequency measurement; clock transition linewidth; optical frequency standard; sideband cooling; single indium ion; vibrational states; Clocks; Cooling; Electrodes; Frequency measurement; Indium; Laser transitions; Measurement standards; Optical sensors; Particle beam optics; Standards development;

fLanguage

English

Publisher

ieee

Conference_Titel

International Frequency Control Symposium and Exposition, 2006 IEEE

Conference_Location

Miami, FL

Print_ISBN

1-4244-0074-0

Electronic_ISBN

1-4244-0074-0

Type

conf

DOI

10.1109/FREQ.2006.275421

Filename

4053799