Temperature dependence of the vibration-vibration transfer rates from CO2 and N2O excited in the (0001) vibrational level to 14N2 and 15N2 molecules

The relative luteusity of vibrational bands arIsing from phctolocization in 02 and 32 are examined as a function of angle. and the results dlscuvsed in terms 0: aul.oionization state6 and a possible breakdowu in the Bork&enhelmer approrcimatlon.

V-V transfer rates from CO (u = 1) to 14N2 and "Nz are determined from 100 to 700 K using the laser fluorescence method. The great effect of the energy level gap between the colliding partners is dramatically demonstrated. Theoretical considerations espIain the observed difference.

A laser fluorcscencr tcchniquc has been used to measure (Vv) cxchangc ratl?s between CO(u = 1) and t4Nz and l5 N, to GO K. At GS K exchsngc :o t 5Nz has 65 times the higher rate constant. Comparison with data for (VV) exchange in hquid N2 sllows that the isulatcd binary collision theory does not hol

## Abstract An approximate analytical solution of relaxation in a low‐pressure system with exponential transition probabilities is given for vibrational–rotational energy transfer in the dissociation of diatomics. The main assumption is that the rotational degrees of freedom are in thermal equilibr

High-resolution Fourier transform spectra covering the \(720-920 \mathrm{~cm}^{-1}\) spectral region have been used to perform a reanalysis of the \(\nu_{2}\) band \(((010)-(000)\) vibrational transition \()\) together with the first analysis of the \(2 \nu_{2}-\nu_{2}\) hot band of nitrogen dioxide