Comparison of numerical capture cross sections with experimental reaction cross sections for NH3+ + NH3

Direct measurements of scattering cross sections for NHs in well-defined quantum states are made using a molcrular beam maser spectrometer. Cross sections are compared for a pure inversion state with those for a coherent superposition state for scattering gases He, Ar, Nz, N20, NHa, CFgH and CHaCN.T

A tandem quadrupole mass spectrometer is used to study the charge transfer reactions NH: + NO and NO+ + NH, over a collision energy range 1.5-l 3 eV. The vibrational state of the reagent ions is selected by resonance-enhanced multiphoton ionization. For the 0.9 eV exothermic process NHf +NO+NH,+NO+

mole) in the region of the rainbow angles. Quantum interference unduhtions are apparently observed as well for C& + Ar and, possibly, NH3 + AI. The measurements are fit to spherically symmetric intermolecular potentials yielding well depths and equilibrium inrerrnolccular separations of 1.32 kJ/mole

We report converged quantum total integral reactive cross sections for the reaction F+H,+HFt H, for initial rotational states jl=O and I, using a time-dependent method. Our results are compared to classical results and to the experimental results of Nemnark et al. Strong quantum effects are found in

The rate constants for the deactivation of Ar 3Pz metastables by 26 different molecules were measured and the corresponding cross sections calculated. The measurements were done in a "flowing'. afterglow system; the Ar 3p\* being produced by a low power microwave discharge. The concentration of Ar '