Publication Abstracts
Phillips et al. 1994
Phillips, T.R., S. Maluendes, A.D. McLean, and , 1994: Anisotropic rigid rotor potential energy function for H2O-H2. J. Chem. Phys., 101, 5824-5830, doi:10.1063/1.467297.
We have calculated the interaction for H2O-H2 at 722 points on a five-dimensional surface where both molecules are treated as rigid rotators, and we have fitted the ab initio points to a 48-term angular expansion of products of spherical harmonics and rotation matrices. The resulting potential energy function shows strong angle dependence with a large contribution from electrostatic interactions. When averaged over H2 orientations, the resulting water-atom-like surface is found to have zero-crossing and minimum at similar distances to the corresponding H2O-He surface but to be generally more repulsive at short range and more attractive at long range. The isotropic average of the potential has a zero-crossing radius σ = 3.05 and a well depth g = 49.5 /cm at an intermolecular separation Rm = 3.52.
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BibTeX Citation
@article{ph04000r,
author={Phillips, T. R. and Maluendes, S. and McLean, A. D. and Green, S.},
title={Anisotropic rigid rotor potential energy function for H2O-H2},
year={1994},
journal={Journal of Chemical Physics},
volume={101},
pages={5824--5830},
doi={10.1063/1.467297},
}
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RIS Citation
TY - JOUR ID - ph04000r AU - Phillips, T. R. AU - Maluendes, S. AU - McLean, A. D. AU - Green, S. PY - 1994 TI - Anisotropic rigid rotor potential energy function for H2O-H2 JA - J. Chem. Phys. JO - Journal of Chemical Physics VL - 101 SP - 5824 EP - 5830 DO - 10.1063/1.467297 ER -
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