Multiphoton dissociation of a rotating molecule

It is shown in experiments on CF3B-r that rotational relaxation may either increase or decrease the value of mu&Photon dissociation selectivity, The mechanism of the influence of rotational relaxation on selective dissociation is analyzed.

\lultiphoton dissocLtion ofCai\_z is observed using low intensity cm CO? iz~srr radiation. Ion ~clotron resonance (ICR) techniques are ustvi to Store ions for irradiation. Ion storage times up to Z s XC used. Multiphoron dissociation is obscrwd at &LX intensities below 100 W cm-= and nt pressures be

A mechanism for ,I rollrs~onlc~s drctocLtmn of a polyatomic molecule via sequential Incoherent absorption of Infrared photons is examined. The proposed mechanism has known analogs for macroscopic systems and c\htbtts the followmg charactcristics. The operation II thrc4lold is govcrncd by thr ,a~l~c

A photoelectron spectroscopy study on resonantly enhanced multiphoton dissociative ionization of molecular hydrogen in a three-photon excitation scheme is reported. Measurements indicate two different dissociation processes. In one process the molecule is first ionized and subsequently dissociated,

SbBr, molecules in the gas phase were dissociated by 193 and 248 nm laser radiation. The fluorescence was dispersed by a monochromator. Highly excited atomic levels of Sb were found to be significantly populated for three-or four-photon dissociation. A region of continuous fluorescence in the visibl