A three-dimensional wavepacket study on photodissociation dynamics of methyl iodide

To demonstrate the applicability of the multiconfigurational time-dependent Hartree (MCTDH) approach to higher-dimensional problems, the photodissociation dynamics of methyl iodide is investigated. A fully quantum-mechanical description is employed which includes as many as five vibrational degrees

We present an exact three-dimensional wavepacket calculation for the photodissociation of water in the first absorption band using the ab initio potential energy surface of Staemmler and Palma. The results are compared with two-dimensional calculations in which the bending angle is frozen and (appro

We report a timedependent wave packet study of non-adiabatic transitions in the photodissociatibn of methyl iodide adsorbed on a MgO surface. The dissociation dynamics is characterized using a twodegreeaf-freedom model in which the CH, group is replaced by an atom, and the CH91 is assumed to be perp

By a wavepacket propagation, we demonstrate the possibility of controlling the photodissociation branching ratio between two fragment channels by a single ultrashort linearly chirped laser pulse. It is found that a negatively chirped pulse of a moderate chirp rate completely prohibits the production

A time-dependent quantum dynamics calculation is reported for the O(nD)+ H 2 reaction in three dimensions. Total (final state summed) reaction probabilities, cross sections and rate constants for the title reaction are presented in this study using the potential energy surface of Schinke and Lester