Dynamics of three-body breakup in dissociative recombination: H2O+

To better understand the propensity for the three-body breakup in dissociat ive recombination (DR) of dihydrides (H-3(+) NH2+, CH2+, and H2O+), we unde rtook a study of the dynamics of this process. A study of DR of H2O+ to giv e O + H + H was carried out at the CRYRING Heavy-ion Storage Ring in Stockh olm. With the stored beam energy of 4.5 MeV, we separated the O signal from the H signals with a differential absorber, thus reducing the problem to a sum of two two-body problems. Results included (1) the ratio of O(P-3) to O(D-1) product, (2) the distribution of recoil-kinetic energy between the t wo hydrogen atoms, (3) the angular distribution between the hydrogen atoms in the O(P-3) channel and in the O(D-1) channel.