Rotational relaxation in the Ar—N2 system

The jackknife test of Rothstein et al. is applied to discrimination between severaI different models used to compute the rotationally inelastic cross sections for the Ar-N2 system. The modified exponential models are the best models, except for the case where the energy gap is small, when power laws

The p-helicity&wupling (PHD) scheme is applied to high rotational transitions in the AI f Nz system and found to give more accurate cross sections and opacity functions than other known approximations. \* hp the phelicity is defined as the projection of J on the direction of p -the linear momentum.

Non-equilibrium rotational energy distributions of N 2 in free jets of He + N2( < 5%) were measured by the electron beam technique. The rotational temperature was derived from the spectrum of the first negative system of Nf induced by high energy (E ~ 10 keV) electrons. The experimental data were co

Translation-vibration ( T -V ) and vibration-vibration (V-V) energy transfer processes in the N2-C02 system were investigated using classical trajectory techniques. Two empirical interaction potentials were employed. One is comprised of independent, atom-atom Morsetype functions operating between no

In order to examine the solvating strength toward a cation species N: , the equilibria of clustering reactions N: (Ar).\_, + 2Ar=N: (Ar),+Ar were studied with a pulsed electron beam high-pressure mass spectrometer. the thermochemical stabilities of N$ ( Ar ), with n > 2 were determined. The bond ene