Vibrational population distribution of ground state BaO formed by the reaction Ba + O2

Infrared emission (Au --2) has been observed from NO (u = 2-7) produced by the reaction N&3 f @ + NO(v) + 0. The apparent NO vibrational energy distribution is different from the distribution initially produced by the reaction owing to stepwise V-V quenching of NO(u) by collision with 02. A time-to

The populations of the nascent CO formed in the reactions oi COS with 0(3P~) and O(" Dz) atoms: O? P) + cos s co? + so, O(' D) c COS 4 COi + SO have been determined by a CO laser resonant absorption method. The fraction of the total available energy channelled into CO as vibration ~1s calculated to

The nascent product vibrational energy distribution of the reaction O('D)+ H, has been determined by using the grating selection chemical laser technique. The main experimental results are: N, /Nc = 0.69, N,/N, = 0.92, Ns/N, = 0.80, N.,/Ns < 0.71. A computer modeling is carried out which shows that

The cherniluminescence in the H+ 0, -OH(X \*lIIW,& +O, reaction was observed uvng a crossed beam tcebnlqu& l%e tnilial population of the OH radicals tn the vibratIonal slate v (4 < u UG 9) were found to be N( 9) -1.0, N(B) -0.95&O 1, N(7) -0.9kO.2, N(6) -0 2\*0 1 and N(5) -N(4) -0 2&O 2 The IOEII cr