par Perry, David D.S.;Martens, Jonathan;Amyay, Badr 
;Herman, Michel
Référence Molecular Physics, 110, 21-22, page (2687-2705)
Publication Publié, 2012-11
;Herman, Michel Référence Molecular Physics, 110, 21-22, page (2687-2705)
Publication Publié, 2012-11
Article révisé par les pairs
| Résumé : | The vibration-rotation dynamics of X̃1Σ +g acetylene are computed from a spectroscopic Hamiltonian with 468 parameters fit to 19,582 vibration-rotation transitions up to 13,000 cm-1 of vibrational energy. In this energy range, both the bending and the CH stretching vibrations can reach large amplitudes, but the maximum energy remains below the threshold for isomerization to vinylidene. In contrast to the behavior at energies below 5000 cm-1 [Mol. Phys. 108, 1115 (2010)], excitation of single bright states leads, in almost all cases, to computed intramolecular vibrational redistribution (IVR) that is irreversible on the timescales investigated. Hierarchies of IVR processes on timescales ranging from 20 fs to 20 ps result when different bright states are excited. Different parts of the vibrational quantum number space are explored as a result of the four different classes of coupling terms: vibrational l-type resonance, anharmonic resonances, the rotational l-type resonance, and Coriolis couplings. The initial IVR rates are very different depending on whether the bright states are bending states or stretching states, normal modes or local modes, edge states or interior states. However, the rates of the rotationally mediated couplings do not depend substantially on these distinctions. © 2012 Taylor and Francis. |
