Quenching of laser induced fluorescence of O2 (b1Σ+g) by O2 and N2

Tie-resolved fluorescence laser-induced spectroscopy was used to examine the quenching of the vibrational levels v = 0 and u = 1 of N;(B \*C:) by N2\_ The rate coefficients of the quenching reactions are found to be constant over the tempera ture range 300-500 K. The quenching constant for the u = 1

molecules from a discharge have been analyzed by the emission of the infrared atmospheric (0.0) bancfat 12700 A and by the emission of the atmospheric (0,O) band at 7619 A due to the energy pooling reaction ## 202(1Agj -+02('Cs) + 02(%;) . Particular rate constants for the deactivation of 02(1 A

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

Quenching of N,(A3ZU+) by 0, 0, N, and

The quenching kinetics of N,(B3ng, u),have been determined in a low-prcwre flow system in the abscncc of N atoms. Individual vibration?1 levels of the B staic were populated by laser pumping (firsr-positive bands) of N?(A31G) molecules. The latter were created upstream by energy transfer from Ar met

The efficiency of formation of 0 (lC\*) by energy transfer between O(lD) and 0, has been measured relative to the efficiency of O&J f or 18 t a ion by photol~sis of ozone at 2587 A. ThG "Iwo singlet states of molecular oxygen were formed in a tlow system and their relative concentrations determiaed