The collisional behaviour of atomic silicon in the electronic states Si(3p2(3PJ, 1D2, 1S0)) with SF6 by time-resolved atomic resonance absorption spectroscopy

The collisional behaviour of electronically excited silicon atoms in the opticalIy metastable 3p2 (ID\*) state (0.781 eV) is imestigated by time-resolved resonance absorption in the ultraviolet. Si(3 '9) was generated by the repetitive pulsed irmdiation of Sic14 at & > 165 nm in a flow system, and m

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 >

A kinetic investigation is presented of the reactions of ground state atomic carbon, C(2p2(3pj)), with the molecules methyl chloride, methyl bromide, methyl iodide, methyl fluoride, dichloromethane, chloroform and carbon tetrachloride. Atomic carbon was generated by the repetitive pulsed irradiation

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

We present a kinetic study of atomic potassium in its electronic ground state, K(4'SI 21, generated in the "single-shot mode" by pulsed irradiation at elevated temperatures and monitored by time-resolved atomic resonance absorption spectroscopy using the Rydberg doublet at A = 404 nm (K[5'PJ] +K[42S