The production of H(2S) atoms in the energy-transfer reaction of O2(1Δg) with HO2(X̃2A″)

The generation of metastable O, ('Xg+) and Oz('Ag) in the H + 0, system of reactions was studied by the flow discharge chemiluminescence detection method. In addition to the Oz('Pg') and Oz(' , H0,(2A~oo) + H02(2AlohO), H02(zA~o,) + HO,(zA~oo), and H Oz(2A~oo) --+ H0,(2A&,o) emissions were detected

The same chemiluminescent spectrum of HNO was obtained in both the reaction systems of 0(3P) + CaHe + NO + 02 (\* A,)/02 and H + NO + 02( 'Ag)/Oa. The reaction mechanism for producing the excited HNO is proposed to be -HNO('A') + 02 ( 'Ag) + HNO(3A", + 0s (3X,) , HNOc3A") + 02 ('A,) --t HNO('A") +

The chemical reaction of 2,5-dimethylpyrrole (CsHgN) with Oz('A,) ## (W) CsHgN + oz('Ag) -CsHgNOz was studied in the gas phase in an isothermal flow reactor at room temperature and low pressures. The CsHgN concentration profiles were studied under pseudo-first order conditions ([CeHgN], < [Oz('A,

Energy transfer processes between metastable atoms He(2 'S) and CHaCI, have been investigated by emission spectroscopy. Intense CH(,4+X), CH(B+X), CH(C+X) and CCI(A+X) emission bands and weak hydrogen Balmer lines were observed. Using the reference reaction He(2 'S)+CO, the formation rate constant o