State of the art for ab initio vs empirical potentials for predicting 6e- excited state molecular energies: Application to Li2(b,13u)

Abstract

We build the first analytic empirical potential for the most deeply bound Li2 state: b(13u). Our potential is based on experimental energy transitions covering v=0-34, and very high precision theoretical long-range constants. It provides high accuracy predictions up to v=100 which pave the way for high-precision long-range measurements, and hopefully an eventual resolution of the age old discrepancy between experiment and theory for the Li(22S)+Li(22P) C3 value. State of the art ab initio calculations predict vibrational energy spacings that are all in at most 0.8 cm-1 disagreement with the empirical potential.