Radiative lifetime of the A 21/2 state in RaF with relevance to laser cooling

Abstract

The radiative lifetime of the A 2 1/2 (v=0) state in radium monofluoride (RaF) is measured to be 35(1) ns. The lifetime of this state and the related decay rate = 2.86(8) × 107 s-1 are of relevance to the laser cooling of RaF via the optically closed A 2 1/2 ← X 21/2 transition, which makes the molecule a promising probe to search for new physics. RaF is found to have a comparable photon-scattering rate to homoelectronic laser-coolable molecules. Thanks to its highly diagonal Franck-Condon matrix, it is expected to scatter an order of magnitude more photons than other molecules when using just 3 cooling lasers, before it decays to a dark state. The lifetime measurement in RaF is benchmarked by measuring the lifetime of the 8P3/2 state in Fr to be 83(3) ns, in agreement with literature.