Reactions of N(2(2)D) with H2O and D2O; identification of the two exit channels, NH(ND)+OH(OD) and H(D)+HNO(DNO)

Ground-state NH(ND) and OH(OD) radicals as well as H(D) atoms were detected as products in the reaction of` N(D-2) with H2O(D2O). The nascent NH(upsil on " = 1)/NH(upsilon " = 0) population ratio is 0.3, while the OH(upsilon " = 1)/OH(upsilon " = 0) ratio is less than 0.05. The rotational state distr ibutions of NH(upsilon " = 0) and OH(upsilon " = 0) can be characterized by Boltzmann distributions at 3000 and 2000 K, respectively. Similar results were obtained for ND and OD, and no large H/D isotope effect was observed i n the energy distributions, Rotational excitation of not only NH(ND) but al so OH(OD) suggests that these reactions are not direct but include complex formation processes. The average energy released into the translational mod e in the production of H + HNO is 65 kJ mol(-1). which corresponds to 45% o f the available energy. That for the D + DNO channel was determined to be 4 7%.