Collision induced intermode energy transfer in small molecules

Energy transfer has been observed in HzO-NH3 mixtures irradiated by Infrared microwave double irradiation. An interpretation of the energy transfer process is given.

The laser excited fluorexence methcd has been employed to determine the rate constants for vibrAtiona rcLsation of the OS @lo), O3 (100) and O3 (001) levels at 298 K. The fluorescence observations from the 03 (010) Ieve1 provide direct mGwlremZ;nts~of Ilie rate for int+mcdc vibtitional enor$' trnnsf

We study vrbrarional energy transfer in rnelastic collmear collisions betBeen IWO diaromrc molecules The system is represemed by IWO linearly driven parametric oscillators with a bilinear\_ time-dependent residua1 coupling between them. We amu& for Ihe time evolution of the Irncarly dnvcn par;lmetri

Emphasizing dissociation, the energy transfer AE to a diatomic Morse oscillator in state tt by collision with an atom is treated in a onedimensional model. The quantum-mechanical impulse approximation yields a closed analytic expression for the differential transfer probability P,,(Ae). Except for u

## High-energy collision-induced dissociation (CID) experiments on polycyclic aromatic hydrocarbons (PAHs ) having 2-6 rings, naphthalene, anthracene, phenanthrene, fluoranthene, pyrene and coronene, were performed, and the relative abundances of their fragment ions were investigated as a function