On the Feasibility of Rovibrational Laser Cooling of Radioactive RaF+ and RaH+ Cations

Abstract: Polar radioactive molecules have been suggested to be exceptionally sensitive systems in the search for signatures of symmetry-violating effects in their structure. Radium monofluoride (RaF) possesses an especially attractive electronic structure for such searches, as the diagonality of its Franck-Condon matrix enables the implementation of direct laser cooling for precision experiments. To maximize the sensitivity of experiments with short-lived RaF isotopologues, the molecular beam needs to be cooled to the … Show more

“…21 Computational studies have shown that because of high electronic transition energies RaF + and RaH + cations are not well suited for laser manipulations. 22 Favorable vibrational branching ratios were reported for a transition of TlF + lying in the UV region. 23 In the context of precision measurements, highly charged heavy cations offer additional benefits.…”

On the prospects of optical cycling in diatomic cations: Effects of transition metals, spin-orbit couplings, and multiple bonds

“…21 Computational studies have shown that because of high electronic transition energies RaF + and RaH + cations are not well suited for laser manipulations. 22 Favorable vibrational branching ratios were reported for a transition of TlF + lying in the UV region. 23 In the context of precision measurements, highly charged heavy cations offer additional benefits.…”

On the prospects of optical cycling in diatomic cations: Effects of transition metals, spin-orbit couplings, and multiple bonds

On the prospects of optical cycling in diatomic cations: effects of transition metals, spin–orbit couplings, and multiple bonds