Laser cooling with intermediate state of spin–orbit coupling of LuF molecule

Abstract: This work presents a theoretical study of the laser cooling feasibility of the molecule LuF, in the fine structure level of approximation. An ab-initio complete active space self-consistent field (CASSCF)/MRCI with Davidson correction calculation has been done in the Λ(±) and Ω(±) representations. The corresponding adiabatic potential energy curves and spectroscopic parameters have been investigated for the low-lying electronic states. The calculated values of the internuclear distances of the X3Σ0+ and (1)3Π0… Show more

“…Osika et al [25] reported that the effective cooling scheme for the RaF molecule can be realized using only one pump laser. Very recently, El-Kork et al [26] reported a three-laser cooling scheme including intervening electronic states for LuF. Bigagli et al [27] built a cycling scheme for Doppler cooling of trapped OH + ions using X 3 Σ − ↔ A 3 Π transition.…”

Spectroscopic properties and laser cooling feasibility with the X1∏21/2↔X2∏23/2 transition for the PbX (X = F, Cl, Br, and I) molecules

“…Osika et al [25] reported that the effective cooling scheme for the RaF molecule can be realized using only one pump laser. Very recently, El-Kork et al [26] reported a three-laser cooling scheme including intervening electronic states for LuF. Bigagli et al [27] built a cycling scheme for Doppler cooling of trapped OH + ions using X 3 Σ − ↔ A 3 Π transition.…”

Spectroscopic properties and laser cooling feasibility with the X1∏21/2↔X2∏23/2 transition for the PbX (X = F, Cl, Br, and I) molecules

Hyperfine structure of the A1Π state of AlCl and its relevance to laser cooling and trapping