Title :
Double radio optical resonances in thermal 87Rb vapor
Author :
Kazakov, G. ; Matisov, B. ; Mazets, I. ; Rozhdestvensky, Yu ; Delporte, J. ; Mileti, G. ; Zholnerov, V.
Author_Institution :
St-Petersburg State Polytech. Univ., St.-Petersburg, Russia
Abstract :
In this paper we compare two different excitation schemes of rubidium gas-cell frequency standard. The first scheme is based on the one laser optical pumping and the second scheme is based on the “two-lasers” optical pumping firstly proposed by J. Deng for light shift compensation. We present stability estimations for both schemes supposing that the gas cell has 15 mb of N2 and the laser line width is about 100 MHz. Our calculations do not show the expected significant improvement of the stability in the case of “two-lasers” scheme. This result is connected to the broadening of the absorption line. To avoid this broadening one needs to use a buffer gas pressure around 1 mb and a laser line width of 10 MHz or less.
Keywords :
frequency standards; optical pumping; rubidium; absorption line; double radio optical resonances; excitation schemes; laser optical pumping; light shift compensation; rubidium gas-cell frequency standard; stability estimations; thermal 87Rb vapor; Gas lasers; Laser stability; Laser transitions; Optical pumping; Pump lasers; Standards;
Conference_Titel :
Frequency and Time Forum (EFTF), 2006 20th European
Conference_Location :
Braunschweig
Print_ISBN :
978-1-4673-2642-1
