Establishing a nearly closed cycling transition in a polyatomic molecule

Abstract

We study optical cycling in the polar free radical calcium monohydroxide (CaOH) and establish an experimental path towards scattering 104 photons. We report rovibronic branching ratio measurements with precision at the 10-4 level and observe weak symmetry-forbidden decays to bending modes with non-zero vibrational angular momentum. Calculations are in excellent agreement with these measurements and predict additional decay pathways. Additionally, we perform high-resolution spectroscopy of the X\,2+(1200) and X\,2+(1220) hybrid vibrational states of CaOH. These advances establish a path towards radiative slowing, 3D magneto-optical trapping, and sub-Doppler cooling of CaOH.