Temperature dependence of the vibrational deactivation of NO(ν = 1) and NO(ν = 2) by NO

A two-laser, pump-probe arrangement has been used to measure room-temperature rate constants for the collision-induced relaxation of NO(v ~ 2, 3) by O atoms. The rate constants ko(o) are equal to (2.2 + 0.2) × 10-~t and (2.5 + 0.3) x 10 -11 cm 3 s -1 for v = 2 and 3, respectively. These values are s

A two-laser (IR overtone pump and UV laser-induced fluorescence probe) technique has been used to measure vibrational relaxation for NO(X \*II, v= 3) colliding with NO, 02, and CH4 at 295 K. The total removal rate coefficients are: (3.26 k 0.24) X 10-'2cm3s-'forNO,(1.46f0.15)~10-'3cm3s-'for02,and(1.

Two new fundamental vibration-rotation bands have been observed for \(\mathrm{HO}_{2} \mathrm{NO}_{2}\) and assigned. They are \(\nu_{7}\) at \(648 \mathrm{~cm}^{-1}\) and \(\nu_{8}\) at \(466 \mathrm{~cm}^{-1}\). On the basis of these assignments the previously observed bands at \(722,801.5\), and

The infrared spectrum of \(\mathrm{HC}^{15} \mathrm{NO}\), an isotopically substituted species of fulminic acid, has been measured in the range \(1900-3600 \mathrm{~cm}^{-1}\) at a resolution of \(0.003 \mathrm{~cm}^{-1}\) with a Bruker IFS \(120 \mathrm{HR}\) interferometer. More than 100 subbands

Branching fractions are determined for the product NO(A2X +, v = 0, 1 and 2) and NO(B 2I-Ir, v = 0) emissions as a function of v' in the title reaction. Using the NO(A2X +, v' = 0-2 ~ X 2lit, v") "r, Av = v' -v" = -4, -5 and -6 and the NO(B2FIr, v'=0~X2Ilr, v") /3, Av=-6 and -7 band intensities we d