Absolute rate data for reactions of atomic caesium with alkyl chlorides determined by time-resolved atomic resonance absorption spectroscopy

We present a kinetic study of the reaction of ground state atomic caesium with N,O by direct spectroscopic monitoring in the time domain. CS(~~S,,~) was generated by the pulsed irradiation of caesium chloride vapour in the presence of N,O and excess helium in a static system and monitored by time-re

We present a kinetic study of the collisional removal of atomic germanium, Ge(4 3P1), with a range of olefins. This atomic state was generated by the repetitive pulsed irradiation of Ge(CH& in the presence of excess helium buffer gas in a slow flow system, kinetically equivalent to a static system,

Reactions of ground-state atomic calcium, Ca(4s2(ISo)), with a large number of collision partners have been investigated by direct spectroscopic measurement using atomic resonance absorption spectroscopy in the timedomain. Ca(41So) was generated by the pulsed irradiation of Cal 2 vapor at elevated t

The absolute third-order rate constant for the recombination between Cs + O2 + Nz was studied by time-resolved atomic resonance absorption spectroscopy following pulsed irradiation of CsCl vapour at elevated temperatures. CS(~~S,,~), generated on photolysis, was monitored photoelectrically in absorp

We present a kinetic study of the reaction of ground state silicon atoms with halogenated unsaturated organic compounds (R). Si(33PJ) was generated by the repetitive pulsed irradiation of SiC1, in the presence of excess helium buffer gas and the reactant R in a slow flow system, kinetically equivale