The importance of the geometric phase effect for the H + D2 → HD + D reaction

We present three-dlmenslonal quantllm mezhamcal calculations of the product state distnbuuons rn the H + D, + HD + D reacloo The two-potential formahsm of the dutorted-wave Born approxunation 1s used with the dIstorted potential taken to be the potential between the atom and the molecule when they a

Probe-laser-induced ("prompt") reaction of H+ D, was observed in a mixture of HI and D2 using (2 + I ) REMPI detection of the HD product. Rotational distributions for HD(u=O-3) of the prompt reaction are reported here, corresponding to center-ofmass collision energies of I .20-1.65 eV and 1.95-2.40

The effect on the H+Hs reaction of the geometric phase induced by the conical intersection between the two lowest electronic states of H, is investigated by an accurate quantum mechanical computation up to 2.6 eV above the bottom of the ground state HZ electronic potential well for the total angular

The reaction D + H2 + HD + H has been investigated in two molecular beam scattering experiments. Angular and time-of-flight distributions have been measured for the initial vibrational ground state ( u = 0) at a most probable collision energy of E,, = 1.5 eV and for the first vibrational excited sta