Triplet-singlet conversion in ultracold Cs2 and production of ground state molecules

Abstract

We propose a process to convert ultracold metastable Cs2 molecules in their lowest triplet state into (singlet) ground state molecules in their lowest vibrational levels. Molecules are first pumped into an excited triplet state, and the triplet-singlet conversion is facilitated by a two-step spontaneous decay through the coupled A1u+ b 3u states. Using spectroscopic data and accurate quantum chemistry calculations for Cs2 potential curves and transition dipole moments, we show that this process has a high rate and competes favorably with the single-photon decay back to the lowest triplet state. In addition, we demonstrate that this conversion process represents a loss channel for vibrational cooling of metastable triplet molecules, preventing an efficient optical pumping cycle down to low vibrational levels.