Intensities of the rotational spectrum of OH (2∑+(v' = O,J') ← 2Π32(v'' = O,J''))

A statistical simulation of the state-to-state experiments by Rakestraw, McKendrick and Zare on the reaction O('P) t HCI ( u, J) +OH ( v, N) + Cl is presented, using our statistical algorithm UNIMOL. Good agreement with the experimental rotational distributions has been found by implementing a reali

The rate constants for the reactions OH(X 'II, kl k2 u=O) + NH3 --t HzO+ NH? and OII(X '11, u=O) + O3 -HO, + O2 were measured at 296K by the flash photolysis resonance fluorescence technique. The values of the rate constants thus obtained are kl = (4.1 +-0.6) X lo-l4 nndkz = (6.5 t 1.0) X lo-l4 in u

The rate constant of the reaction OH (v = 0) + O3 5 HOa + 02 was measured over the temperature range from 220 to 4-50'K at total pressures between 2 and 5 torr using ultraviolet fluorescent scattering for the detection of OH radicals. An Arrhenius spression, ICI = 1.3 X lo-l2 x esp(-1900/RT) cm3/s

Rccewcd 22 July 198' A113iys1s of new cm6sion spectra of i 2?.Y-X"2~ m NzO+. InchdIng the forhddcn components w1th&2 = I. have made II posslblc to loc;ltc ail four vlbromc components of IIIC &' = 1 manifold Prtnctpal rot;lhonal constants and sptnvibronlc term vslucs xc given A previous cswnac ol the