Classical mechanics of intramolecular vibrational energy flow in benzene. V. Effect of zero-point energy motion
- 15 December 1989
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 91 (12) , 7490-7497
- https://doi.org/10.1063/1.457273
Abstract
Zero-point energy excitation has a profound effect on the relaxation of benzene CH and CD overtone states. Only adding a fraction of the zero-point energy for each normal mode in the initial conditions results in smaller overtone relaxation rates. If no zero-point energy is added to C6H6, the n=3 and 5 CH overtones do not relax within 1 ps. Adding zero-point energy to different types of normal modes has nonequivalent effects on overtone relaxation. Zero-point excitation of modes with HCC bend character is particularly effective in enhancing relaxation of the overtones.Keywords
This publication has 83 references indexed in Scilit:
- A simple model for correcting the zero point energy problem in classical trajectory simulations of polyatomic moleculesThe Journal of Chemical Physics, 1989
- Local modes of benzene and benzene dimer, studied by infrared–ultraviolet double resonance in a supersonic beamThe Journal of Chemical Physics, 1988
- Intramolecular dynamics of the overtone-induced isomerization of methyl isocyanideThe Journal of Chemical Physics, 1987
- Highly resolved spectra of local modes of benzenePhysical Review Letters, 1987
- Intramolecular vibrational relaxation of CH stretch overtones in benzeneThe Journal of Chemical Physics, 1987
- The origin of cross section thresholds in H+H2: Why quantum dynamics appears to be more vibrationally adiabatic than classical dynamicsThe Journal of Chemical Physics, 1983
- Vibrational randomization measurements with supersonic beamsThe Journal of Physical Chemistry, 1982
- Vibrational energy flow within excited electronic states of large moleculesThe Journal of Physical Chemistry, 1982
- Intramolecular vibrational energy redistributionThe Journal of Physical Chemistry, 1981
- Energy Distributions in Unimolecular ReactionsBerichte der Bunsengesellschaft für physikalische Chemie, 1977