Title :
Monoion oscillator as potential ultimate laser frequency standard
Author :
Dehmelt, Hans G.
Author_Institution :
Dept. of Phys., Univ. of Washington, Seattle, WA, USA
fDate :
6/1/1982 12:00:00 AM
Abstract :
An individual atomic ion localized in the center of a small Paul RF quadrupole trap has potential as an ultimate laser frequency standard because the ion may be brought to `a state of complete rest in free space´ by sideband cooling. As a consequence, all Doppler shifts vanish, `Free Space´ is approximated in so far as the electric trapping field vanishes in the center of the trap and there is no Stark effect. Neither need there be a Zeeman effect as magnetic fields may be controlled down to the microgauss range. There is also no transit time broadening. Minute laser powers provided by harmonic generators suffice for saturation of optical transitions as strongly focused beams may be used. A million-fold atomic amplification of the single-ion fluorescence from a metastable level may bring resolutions of 1 part in 1018 within reach.
Keywords :
frequency measurement; laser accessories; laser beams; measurement standards; oscillators; Doppler shifts; Paul RF quadrupole trap; Stark effect; Zeeman effect; electric trapping field; free space; laser accessories; laser frequency standard; metastable level; mono-ion oscillator; optical cooling; sideband cooling; single-ion fluorescence; Amplitude modulation; Barium; Cooling; Ions; Laser transitions; Oscillators; Photonics;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.1982.6312526
