Molecular beam chemiluminescence: kinetic energy dependence of the Ba + N2O chemiluminescence cross section

The internal energy of the excited BaO formed in the reaction between Ba(6s5d 'D2) and an OZ molecule has been studied in a crossed beam apparatus as a function of the collision energy. It is found to be statistically distributed even at a collision energy as high as 0.58 eV. By comparison with the

Differential cross sectiona for the scattering of N3 (velocity selected beam) by Ar (nozzle beam) were measured at different kinetic energies in the range E = 7.73 -15.6 x lo-14 erg. r?om the rainbow scattering the well depths = 1.63 -L 0.15 x lo-14 erg has been deduced for an assumed L.-J. (I2.6) p

A novel method for determining absolute chemihuninescence cross sections without knowledge of the absolute detection sensitivity is described for reactions involving eIectronicaUy excited reactants. A study of the Ca(4s4p 3P) + NzO reaction under singie-collkion conditions is presented, and a photon

We report the first experimental and theoretical observation of a broad peak in the kinetic energy dependence of the total cross sections for the title reaction with v~ = 0 and 1, in the laboratory collision energy range of 8-400 eV. A theoretical analysis reveals that the peak in the total cross se