Application of fitting laws to rotationally inelastic rate constants: Li*2(A1Σ)+Ne, Ar, Xe.

Abstract

Using the method of LIF we have measured with an average absolute error of 8% rate constants for rotationally inelastic collisions from level j_i=8, 22, and 42 to level j_f=j_i+Δj for Li^*₂ (AΣ) colliding with Xe, Ar, and Ne. Values of ‖Δj‖ up to 32 were studied, involving rotational energy charges as large as 1.5 kT and collisions during which the Li₂ molecule rotated as much as 3 rad. These extremes are several times larger than the corresponding values in any previous experimental studies of rotationally inelastic collisions, and present a formidable challenge both to the experimental technique and to any general relationships used to fit the data. Four parameter fits with average deviation from the data of 11% have been found; these fits combine the energy corrected sudden approximation of DePristo et al. with our recently proposed power law‐exponential expression for the basis rates k_j→0 .