Title :
Self-pulsing in alkali rf-discharge lamps
Author :
Coffer, J.G. ; Huang, M. ; Camparo, J.C.
Author_Institution :
Phys. Sci. Labs., Aerosp. Corp., El Segundo, CA, USA
Abstract :
Rubidium vapor-cell atomic clocks are the “workhorse” of precise timekeeping for many GNSS missions. As is well known, the alkali rf-discharge lamp in these clocks is not only responsible for producing the atomic clock signal; it also has a significant influence on the clock´s output frequency via the light-shift effect. Here, we discuss our discovery of self-pulsing in alkali rf-discharge lamps, which has the potential to periodically vary a Rb clock´s signal-to-noise ratio and (via the light-shift effect) the clock´s frequency. This self-pulsing is low frequency, on the order of one hertz in our experiments, and is not related to the self-pulsing reported a number of years ago by Robert Shaw, which was near 10 kHz and due to ion-acoustic wave generation in the discharge.
Keywords :
acoustic waves; atomic clocks; discharge lamps; high-frequency discharges; rubidium; time measurement; GNSS missions; alkali rf-discharge lamp self-pulsing; atomic clock signal; clock frequency; clock output frequency; ion-acoustic wave generation; light-shift effect; precise timekeeping; rubidium vapor-cell atomic clocks; signal-to-noise ratio; Atomic clocks; Discharges (electric); Face; Oscillators; Plasma temperature; Resonant frequency; Temperature measurement;
Conference_Titel :
Frequency Control Symposium (FCS), 2012 IEEE International
Conference_Location :
Baltimore, MD
Print_ISBN :
978-1-4577-1821-2
DOI :
10.1109/FCS.2012.6243593
