Spectroscopy of laser cooling transitions in MgF
Abstract
We measure the complete set of transition frequencies necessary to laser cool and trap MgF molecules. Specifically, we report the frequency of multiple low J transitions of the X2+(v=0,1) → A21/2(v=0), X2+(v=1,2) → A21/2(v=1), and X2+(v=1) → B2+(v=0) bands of MgF. The measured X2+(v=1)→ B2+(v=0) spectrum allowed the spin-rotation and hyperfine parameters of the B2+(v=0) state of MgF to be determined. Furthermore, we demonstrate optical cycling in MgF by pumping molecules into the X2+(v=1,2) states. Optical pumping enhances the spectroscopic signals of transitions originating in the N=1 level of the X2+(v=1,2) states.
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