Collisional quenching of electronically excited germanium atoms, Ge(4p2(1D2)), by unsaturated ring compounds determined by time-resolved atomic resonance absorption spectroscopy in the ultra-violet

The collisional behaviour is presented of electronically excited germanium atoms, Ge(4p2('D,)), 0.883 eV above the 4pa(aP,) ground state, in the presence of a range of simple molecules. We have shown that the 'Dz atom, which is optically metastable, may be produced photochemically in the pulsed mode

EIectronicalJy excited oxygen atoms, O(2lD23, generated by the pulsed irradiatkn of ozone in the Hartley continuum, have been observed by bsorption spectroscopy using time-resolved attenuation of resonance radiation in the vacuum ultra-violet (O(31D2$41(21D ) 2 , h 115.2 nm). The concentration profi

A kinetic investigation is described of the reaction of ground state atomic carbon, c(2p2(3PJ)), monitored by time-resolved atomic resonance absorption spectroscopy, with a wide range of halogenated olefins and aromatic compounds. Atomic carbon was generated by the repetitive pulsed irradiation (A >

Time-resolved atomic absorption spectroscopy in the vacuum ultraviolet has been employed to monitor electronically excited oxygen atoms, 0(2\*D2), following their generation by the flash photolysis of ozone in the Hartley band region. We report the first values for the absolute second-order rate con