The detection of bromine atoms by resonant multiphoton ionization

## Nltromethane m a pulsed supersonIc molecular beam was decomposed by high-power CO2 laser-mducea multlphoton dlssocntlon The NO2 fragments from this decomposltlon were detected \\~th time, space, and spectroscopx resolution by pulsed tunable dye laser-mduced multlphoton 1oruzat1on Sunultnneous q

Resonantly enhanced multiphoton ionization has been used to detect cI(3~'P.j'~) and Ci\*(3p2PF'> via the pumping of two-photon-allowed nansitians rn the wavelength region of 230-245 nm. The precursors used to generate Cl atoms were CH,CI,, CF,CI, and Ccl,. Two-photon-allowed rransikions of HQ and DC

We report the direct detection of iodine atoms following infrared multiphoton dissoc-nation of perfluoroalkyl iodides. ?he technique, three-photon resonant two-photon ionization, showsgreat promise as an ;ictinometer for primary dissocirttion yield in IRWPD.

A photoelectron spectroscopic study of resonance-enhanced multiphoton ionisation (REMPI) of bromine in the visible region from 430 to 5 10 nm has been performed. Photoelectron spectra of several resonances originating from (3 + 2) and (4+ I ) REMPI of ground-state and spin-orbit excited-state atomic

The production of zinc atoms in multiphoton dissociation of zinc dialkyls is probed via the resonance-enhanced multiphoton ionization technique. Asymmetric power-dependent broadening of resonant line profiles is observed. The dependence of resonant zinc ion yield is analyzed as a function of wavelen