Kinetic investigation of electronically excited oxygen atoms, O(21 D 2), by time-resolved attenuation of atomic resonance radiation in the vacuum ultra-violet. Part 2.?Collisional quenching by the atmospheric gases N2, O2, CO, CO2, H2O and O3.

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

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

## Abstract Electronically excited oxygen atoms O(2^1^__D__~2~) have been generated by the pulsed irradiation of ozone in the Hartley‐band continuum and monitored photoelectrically in absorption by time‐resolved attenuation of atomic resonance radiation at λ = 115.2 nm [O(3^1^__D__~2~°) → O(2^1^__D