Vibronic branching ratios for nearly-closed rapid photon cycling of SrOH
Abstract
The vibrational branching ratios of SrOH for radiative decay to the ground electronic state, X2+, from the first two electronically excited states, A2 and B2+, are determined experimentally at the 10-5 level. The observed small branching ratios enable the design of a full, practical laser-cooling scheme, including magneto-optical trapping and sub-Doppler laser cooling, with >104 photon scatters per molecule. Ab initio calculations sensitive to weak vibronic transitions are performed to facilitate the experimental measurement and analysis, and show good agreement with experiment.
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