Collisional Line Assignments and Hyperfine Structure Interpretation in Cs₂ 2³△_1g State

Accurately known energy level structure of the Cs₂ A¹∑⁺_u -b³Πu complex of states from a recent global de-perturbation of these states has enabled additional assignments of 140 per-turbation facilitated infrared-infrared double resonance (PFIIDR) transitions to the 2³△_1g state from collisionally populated intermediate A¹∑⁺_u levels. Together with the 221 previ-ously observed 2³△_1g←A¹∑⁺_u← X¹∑⁺_g double resonance lines J. Chem. Phys. 128, 204313 (2008), molecular constants and the Rydberg-Klein-Rees potential energy curve of the 2³△_1g state have been recalculated (excluding 54 perturbed levels). The centrifugal distortion con-stant has been determined and agrees well with the value calculated based on standard empirical formulas. The hyperfine structure of the 2³△_1g state, which has not resolved in our sub-Doppler excitation spectra of the 2³△_1g state, has been interpreted with a preliminary simulation.