Title :
Rubidium and cesium in one fountain: a new tool for the search of the time variation of the fine structure constant
Author :
Sortais, Y. ; Bize, S. ; Nicolas, C. ; Mandache, C. ; Santarelli, G. ; Clairon, A. ; Salomon, C.
Author_Institution :
BNM-LPTF, Obs. de Paris, France
fDate :
6/23/1905 12:00:00 AM
Abstract :
We have built in experiment to perform a test of the stability of the fine structure constant α=e2/∇c. This test is based on high accuracy comparisons between atomic microwave frequency standards using different atomic species. We have first developed a 87Rb fountain with a relative accuracy of 2×10-15 that we compare with BNM-LPTF Cs fountains. This comparison leads to a test of the stability of the fine structure constant at the level of 8×10-15 yr-1. We are now developing a dual fountain that will operate with 87Rb and 133Cs simultaneously. Using this device, we expect to improve the accuracy of Rb and Cs fountains and bring the resolution of the test of the stability of α in the 10-16 yr-1 range. The Cs part of this device is giving satisfactory preliminary results
Keywords :
atomic clocks; caesium; constants; fine structure; frequency stability; frequency standards; gravitation; rubidium; Cs; Ramsey fringes; Rb; atomic fountain; atomic frequency standards; atomic quality; cavity frequency pulling; cold atom; dual fountain; equivalence principle; fine structure constant stability; frequency stabilities; high accuracy comparisons; hyperfine transitions; microwave frequency standards; synchronization; time variation; ultrastable oscillator; Electrons; Equations; Frequency measurement; Laboratories; Microwave frequencies; Performance evaluation; Stability; System testing; Temperature measurement; Virtual colonoscopy;
Conference_Titel :
Frequency Control Symposium and PDA Exhibition, 2001. Proceedings of the 2001 IEEE International
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-7028-7
DOI :
10.1109/FREQ.2001.956154
