Intermolecular potential for thermal H2O–He collisions
- 1 August 1988
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 89 (3) , 1401-1407
- https://doi.org/10.1063/1.455139
Abstract
Theoretical potentials for rotational excitation of H2O by He were constructed via several methods, all of which start with a large basis set SCF interaction. The semiempirical Hartree–Fock with damped dispersion (HFD) model adds a damped long‐range attraction with parameters adjusted to fit experimental total differential cross sections. Purely a b i n i t i o potentials add correlation energies obtained via perturbtion theory (MP2 and MP4) or a variational method (ICF1). Scattering calculations were performed on all surfaces to compare with available beam scattering and pressure broadening data and to assess sensitivity of state‐to‐state rates to uncertainties in the potential. From comparison with the limited experimental data, the ICF1 surface appears to be marginally better than the MP4 surface. Thermal rates calculated from this surface should be accurate to better than 50%, at least for the larger, more important rates.Keywords
This publication has 36 references indexed in Scilit:
- Rate constants for rotational transitions of CO scattered by para-hydrogenThe Astrophysical Journal, 1985
- Calculations of pressure-broadened linewidhts for CO in ArJournal of Quantitative Spectroscopy and Radiative Transfer, 1985
- Anisotropic intermolecular forces from Hartree-Fock plus damped dispersion (HFD) calculationsMolecular Physics, 1984
- Intermolecular forces via hybrid Hartree-Fock plus damped dispersion (HFD) energy calculations. Systems with small nonsphericity: argon-molecular hydrogen, neon-molecular hydrogen, and helium-molecular hydrogenThe Journal of Physical Chemistry, 1982
- Decoupling the vibrational modes in triatomic molecule collision calculationsMolecular Physics, 1981
- A critical study of some methods for evaluating theC6,C8andC10isotropic dispersion energy coefficients using the first row hydrides, CO, CO2and N2O as modelsMolecular Physics, 1980
- PNO-CI and PNO-CEPA studies of electron correlation effectsMolecular Physics, 1976
- Reflections on the scientific career of Jeremy MusherInternational Journal of Quantum Chemistry, 1976
- Permanent and Induced Molecular Moments and Long‐Range Intermolecular ForcesAdvances in Chemical Physics, 1967
- Note on an Approximation Treatment for Many-Electron SystemsPhysical Review B, 1934