Abstract

We have measured the state-to-state differential scattering cross section (DCS) for a rotationally inelastic process using an entirely spectroscopic method. The system studied was ${\mathrm{Li}}_{2}$(${\mathit{A}}^{1}$${\mathrm{\ensuremath{\Sigma}}}_{\mathit{u}}^{+}$)-Xe and the method utilizes two color sub-Doppler double resonance. Analysis of the shape of the double resonance line yields the final distribution of relative velocity vectors. This represents the first measurement of a state-to-state DCS using thermal cell spectroscopy. In addition we have determined, also for the first time, the dependence of the state-to-state DCS on initial relative velocity. Results are presented for the \ensuremath{\Delta}j=6 rotationally inelastic process.