State detection using coherent Raman repumping and two-color Raman transfers

Abstract

We demonstrate state detection based on coherent Raman repumping and a two-color Raman state transfer. The Raman coupling during detection selectively eliminates unwanted dark states in the fluorescence cycle without compromising the immunity of the desired dark state to off-resonant scattering. We demonstrate this technique using 137Ba+ where a combination of Raman coupling and optical pumping leaves the D3/2 F"=3,mF"=3 metastable state optically dark and immune to off-resonant scattering. All other states are strongly coupled to the upper P1/2 levels. We achieve a single shot state-detection efficiency of 89.6(3)% in a 1ms integration time, limited almost entirely by technical imperfections. Shelving to the F"=3,mF"=3 state before detection is performed via a two-color Raman transfer with a fidelity of 1.00(3).