Chemiluminescent reaction at thermal energy: Vibrational distribution of CO+(A 2Π) from the C+ O2 reaction

The CS + (A2Hi-X 2~+ ) emission has been observed in the C + (2p)+ocs reaction at thermal energy in a flowing afterglow apparatus. New bands of CS + (A 2 II~-X 2~ + ) from v'= 10-14 to v"= 0-3 were identified. The vibratio.nal populations in the CS + (A21-I~) state were estimated by spectral simulat

Aromic carbon w;(s produced 31 300 K in hi low-pressure H + halomethane diffusion flame using a discharge flow reactor. =\n intcnsc ultrariolct clwruilurnincscencc ofSO(A '11). sttributrd to the reaction C + SO? -CO + SO. WCIS observed when SO2 was added. The sprcifir production of rhis chcmilumine

The extensive bands observed from the hehum afterglow reaction of SO\* m the 250-540 mn region are assigned to the new SO+(A \*rt--X\*l$) system produced from the He\*/S02 dissociative charge-transfer reaction at themA energy. They had been erroneously mterpreted as the SO; (c-4 system produced from

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

OCS+ (x-z) emission has heen observed from the thermal energy charge transfer reaction between N; ions and OCS molecules. The rotational temperatures of the OCS+ (A 21T,: O") state were estimated to be 23OOk 300 K for D = 3/2 and 3300 + 500 K for O= 112, by assuming a single Boltzmann distribution.