Saturated absorption spectroscopy: elimination of crossover resonances by use of a nanocell

Abstract

It is demonstrated that velocity selective optical pumping/saturation resonances of reduced absorption in a Rb vapor nanocell with thickness L= λ , 2λ , and 3λ (resonant wavelength λ = 780 nm) allow the complete elimination of crossover (CO) resonances. We observe well pronounced resonances corresponding to the Fg=3 Fe=2,3,4 hyperfine transitions of the 85Rb D2 line with linewidths close to the natural width. A small CO resonance located midway between Fg=3 Fe=3 and Fg=3 Fe=4 transitions appears only for L = 4λ . The D2 line (λ = 852 nm) in a Cs nanocell exhibits a similar behavior. From the amplitude ratio of the CO and VSOP resonances it is possible to determine the thickness of the column of alkali vapor in the range of 1 - 1000 μ m. The absence of CO resonances for nanocells with L λ is attractive for frequency reference application and for studying transitions between Zeeman sublevels in external magnetic fields.