Collisional quenching of O(1D) by O(3P)

The quenching rate for 0('S) by 0(3P) has been calculated using the 02 ab initio potential enerm curve< of Michels. From these calculations, the form for the rate is estimated to be k = 1.0 X lo-" esp(-760 caI/R?) cm3 molec-\* set-'. 0('S) + 0(3P)+O(1D) f O('D)+ 0.255 eV, (1

VibrationaII of mixtures of $6 excited 160190(3~~) has been observed at short delay times during the flash photoIysia 03 and 1602. This s !Y an 1802 molecule, indicating that 02( ties can only be formed by the reaction of an 160(lD) atom with C &R,O ia a product of the collisiocaI deactivation of O(

Rate cocfticicnts for the collisiona! quenching of Of (' a,) by NO and CO, at 2-8 torr and 300 K have been determined. X-NO = (2.48 t 0.23) X lo-" cm3 moleculc~' s-' anzkCOz = (2.56 5 0.12) X IO-" cm3 moleculc~ s-l.

The first absolute rate measurerr,ents for the collisional quenching of the electronically excited oxygen atom, O(2 ' D2 1, by the atmospherically important fluorocarbons, CF2C12 and CFC13, are reported. O(2 ' D2) was generated by the repetitive pulsed irradiation of 03 in the Hartley-band continuum