Ultrasensitive two-photon spectroscopy based on long spin-relaxation time in a

dark optical trap

L. Khaykovich, N. Friedman, S. Baluschev, D. Fathi, N. Davidson

We propose a new spectroscopic method for measuring weak transitions in cold and trapped atoms, which exploits the long spin relaxation times and tight spatial confinement offered by dark optical traps to achieve extremely high sensitivity. We demonstrate our scheme by measuring a  5S_1/2 -> 5D_5/2 two-photon transition in cold Rb atoms trapped in a new single-beam dark optical trap, using an extremely weak probe laser power of 25 mW . We were able to measure transitions with as small excitation rate as <0.1 s^-1 , using 10⁷ fold quantum amplification of the transition rate due to spin shelving and normalized detection with a strong cycling transition  

"Ultrasensitive two-photon spectroscopy based on long spin-relaxation time in a dark optical trap", L, Khaykovich, N. Friedman, S. Balouschev, D. Fathi, and N. Davidson, Europhys. Lett., 50 (4), 454-459 (2000). (PDF)