Anomalous electronic energy partitioning in Mg*(3p) + (F2, Cl2) and Ca*(3P) + Cl2 reactions

Collisional deactivation of by the title compounds was investigated through 2 I( P ) 1/2 the use of the time-resolved atomic absorption of excited iodine atoms at Rate 206.2 nm. constants for atomic spin-orbit relaxation by CH 3 Cl, CH 2 Cl 2 , CHCl 3 , CCl 3 F, and CCl 4 are and Ϫ13 Ϫ13 Ϫ14 Ϫ15 3.

Collisional transfer of electronic energy from spin-orbit excited chlorine atoms, Cl\* [ ~P'(~P,,~) ] (E=882 cm-'), to vibrational energy in SOz has been observed by time-resolved infrared fluorescence from the fundamental SOI stretching levels. The rate constant ( k la) for Cl\* quenching by SO2 at

A laser flash photolysis-resonance fluorescence technique has been employed to study the kinetics of the important stratospheric reactions Cl('P,) + O 3 C10 + O2 and Br('P,,,) + O3 -+ BrO + O2 as a function of temperature, The temperature dependence observed for the Cl('P,) + O3 reaction is nonArrhe

The rate coefficients for the removal of C1 atoms by reaction with three HCFCs, CF3CHC12 (HCFC-123), CF3CHFCl (HCFC-124), and CH3CFC12 (HCFC 141b), were measured as a function of temperature between 276 and 397 K. CH3CF2C1 (HCFC-142b) was studied only a t 298 K. The Arrhenius expressions obtained ar

The absolute rate constants have been measured for several gas-phase chlorine atommolecule reactions a t 25OC by resonance fluorescence. These reactions and their corre- sponding rate constants in units of cm3 mole-' sec-l are: The effects of varying the substrate pressure, total pressure, light in