Quasiclassical trajectory studies of vibrational enhancement of collision-induced dissociation in collinear collisions

Rate coefficients were calculated for vibrational relaxation and collision-induced dissociation of ground state xenon fluoride in neon a t temperatures between 300 and 1000 K for each of nine vibrational levels. These coefficients were calculated using a pairwise additive potential energy surface, w

2 O as ionizing reagents, is discussed. The negative chemical ionization mass spectra show that, in the absence of a hydroxy group in the aromatic ring, deprotonation takes place at the benzylic position whereas the proton is lost from the OH group when present. The nitro compound forms only M ÀÁ io

## Abstract Collision‐induced dissociation of the molecular ions and of some of the fragment ions foremed on ionization of methanol, ethanol and n‐propnol have been studied at high energy resolution in a mass spectrometer. The translational energy lost upon collision and the kinetic energy released

The collision-induced dissociatlor~ cocess of alkali halides to ion pairs by high energy Se was studied by crossed molecular beam ma\_hod. The dependence of the dissociation cross section on relative 'kinetic energy and alkali ha--de internal energy v\*as investigated.