Relaxation dynamics of vibrationally highly excited H2 molecules on a Cu surface

The influence of the population distribution function on the collisional relaxation of highly vibrationally excited polyatomic molecules is analyzed in a non-reactive system. Unimodal and bimodal energy distributions are considered. Calculations made with unimodal energy distributions showed that th

The vibrational excitation of H 2 produced in the reaction between gas-phase and chemisorbed H atoms on a tungsten surface is studied by use of classical trajectory procedures. In small and intermediate-impact parameter (b) collisions, the reaction probability P(b) is large, and a major fraction of

We study the classical and quantum mechanics of the 3-mode Baggot vibrational Hamiltonian for H20. Chirikov resonance analysis gives an approximate view of the classical phase space structure. Computation of periodic orbits and families of resonant 2-tori provides a more rigorous basis for the use o

We report theoretical results for the bonding of NO to a singly coordinated Cut cation of the Cu,O(l 11) surface. The effect of the surface relaxation and of the rumpling of coordinatively unsaturated cations on the energy and bonding nature of the interaction and on the vibrational spectrum has bee