Quenching of N2(A 3Σ+u, v=0,1) by N2, Ar, and H2

The rate constant for N,(A, v=O) deactivation by H has been measured by monitoring the decrease in the N,(A, v=O) -+N,(X, v=6) emission when H is added to a flow stream containing N\*(A). The value is found to be 5 x lo-" cm3 s-l, with an uncertainty of z 50%.

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

Time-resolved fluorescence hscr-induced spectroscopy was used to determine the quencbin~ rates of the vibrations1 Icvets u' = 0,l and 2 of NG(B \*f+ \_,,) bv I& and Ne. For bolt2 quenchers rate constants mz found to base a depcndenoz upon \_ the vibrational escitation of the Ievef. Tlie radiative Ii

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

The quenching re.ac!ions 01 memsmble niwogcn molecuks I$(A%. u = 0. I. 2) by 02 has been sludisd in a rrmperamrscontrolled flowing afterglow experimenl. The rexlion tale constants at 300 K are 2.5 X IO-"\_ 4.0X IO-" and 4.5 X lo-" c&/s molecule for u = 0. 1 and 2, respectively. They vary as Z"' m th