Observation and modelling of bound-free transitions to the X1+ and a3+ states of KCs

Abstract

The oscillation continuum in laser-induced fluorescence spectra of bound-free c3+ a3+ and (4)1+ X1+ transitions of the KCs molecule were recorded by Fourier-transform spectrometer and modelled under the adiabatic approximation. The required interatomic potentials for ground a3+ and X1+ states were reconstructed in an analytical Chebishev-polynomial-expansion form in the framework of the regularization direct-potential-fit procedure based on the simultaneous consideration of experimental line positions from [R. Ferber et al, Phys. Rev. A, 80, 062501 (2009)] and the present ab initio calculation of short-range repulsive potential data. It was proved that the repulsive part over dissociation limit of the derived a3+ potential reproduces the experiment better than the potentials reported in literature. It is also shown that all empirical and semi-empirical potentials available for the X1+ state reproduce the bound-free (4)1+ X1+ spectrum with equal quality in the range of observations.