T-dependent long-range Keesom coefficients are evaluated up to the R10 term for small values of the dimensionless parameter |all’|. For large values of |all’| corrections must be introduced mostly for the dipole–dipole term, the correct values of C6 being best obtained from a recently derived asymptotic formula. The corresponding attractive energies are the isotropic electrostatic contributions to the interaction energy and are temperature-dependent. Comparison with long-range induction and dispersion energy results for some simple polar axially symmetric molecules in the gas phase shows that at R = 10 a0 and T = 293 K the electrostatic dipole–dipole component is dominant for |all’| > 0.5. For centrosymmetric molecules the corresponding electrostatic contribution is usually negligible with respect to dispersion.
Keesom coefficients in gases
MAGNASCO, VALERIO;COSTA, CAMILLA
2006-01-01
Abstract
T-dependent long-range Keesom coefficients are evaluated up to the R10 term for small values of the dimensionless parameter |all’|. For large values of |all’| corrections must be introduced mostly for the dipole–dipole term, the correct values of C6 being best obtained from a recently derived asymptotic formula. The corresponding attractive energies are the isotropic electrostatic contributions to the interaction energy and are temperature-dependent. Comparison with long-range induction and dispersion energy results for some simple polar axially symmetric molecules in the gas phase shows that at R = 10 a0 and T = 293 K the electrostatic dipole–dipole component is dominant for |all’| > 0.5. For centrosymmetric molecules the corresponding electrostatic contribution is usually negligible with respect to dispersion.
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