Title :
Minimizing the required trap depth in optical lattice clocks
Author :
Lemonde, Pierre ; Wolf, Peter
Author_Institution :
SYRTE, Obs. de Paris
Abstract :
We study the trap depth requirement for the realization of an optical clock using atoms confined in a lattice. We show that site-to-site tunnelling leads to a residual sensitivity to the atom dynamics hence requiring large depths (50 to 100 Er for Sr) to avoid any frequency shift or line broadening of the atomic transition at the 10-17 - 10-18 level. Such large depths and the corresponding laser power may, however, lead to difficulties (e.g. higher order light shifts, two-photon ionization, technical difficulties) and therefore one would like to operate the clock in much shallower traps. To circumvent this problem we propose the use of an accelerated lattice. Acceleration lifts the degeneracy between adjacents potential wells which strongly inhibits tunnelling. We show that using the Earth´s gravity, much shallower traps (down to 5 Er for Sr) can be used for the same accuracy goal
Keywords :
atomic clocks; lattice dynamics; particle traps; radiation pressure; resonant states; spectral line broadening; Sr; atom dynamics; atomic transition; frequency shift; line broadening; optical lattice clocks; potential wells; tunneling; Acceleration; Atom optics; Atomic beams; Charge carrier processes; Clocks; Frequency; Lattices; Optical sensors; Strontium; Tunneling;
Conference_Titel :
Frequency Control Symposium and Exposition, 2005. Proceedings of the 2005 IEEE International
Conference_Location :
Vancouver, BC
Print_ISBN :
0-7803-9053-9
DOI :
10.1109/FREQ.2005.1574062
