Indium single-ion optical frequency standard

Author

Becker, Th. ; Nevsky, A.Y. ; Skvortsov, M.N. ; Schwedes, Ch. ; Eichenseer, M. ; von Zanthier, J. ; Peik, E. ; Walther, H.

Author_Institution

Max-Planck-Inst. fur Quantenoptik, Garching bei Munchen, Germany

fYear

2000

fDate

10-15 Sept. 2000

Abstract

Summary form only given. Laser-cooled ions in radiofrequency traps are the atomic systems that allow the highest resolution (ratio of frequency to linewidth) in optical or microwave spectroscopy. They can serve as references in highly stable frequency standards and also enable precise tests of fundamental physics. We present recent results on our In/sup +/ optical frequency standard, based on the 5s/sup 2/ /sup 1/S/sub 0//spl rarr/5s5p /sup 3/P/sub 0/ transition at 236.5 nm wavelength. This transition has a natural linewidth of only 0.82 Hz and is highly immune to systematic frequency shifts.

Keywords

Zeeman effect; frequency standards; indium; laser cooling; positive ions; radiation pressure; trapped ions; 236.5 nm; In; Paul-Straubel trap; Zeeman shift; clock transition; fluorescence; frequency stability; highly stable frequency standards; laser-cooled ions; natural linewidth; optical double resonance; quantum jumps; radiofrequency traps; single-ion optical frequency standard; Atom lasers; Atom optics; Atomic beams; Atomic measurements; Charge carrier processes; Indium; Laser theory; Masers; Particle beam optics; Radio frequency;

fLanguage

English

Publisher

ieee

Conference_Titel

Quantum Electronics Conference, 2000. Conference Digest. 2000 International

Conference_Location

Nice, France

Print_ISBN

0-7803-6318-3

Type

conf

DOI

10.1109/IQEC.2000.907790

Filename

907790