Extension of the D3 dispersion coefficient model
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Abstract
A new model, termed D4, for the efficient computation of molecular dipole-dipole dispersion coefficients is presented. As in the related, well established D3 scheme, these are obtained as a sum of atom-in-molecule dispersion coefficients over atom pairs. Both models make use of dynamic polarizabilities obtained from first-principles time-dependent density functional theory calculations for atoms in different chemical environments employing fractional atomic coordination numbers for interpolation. Different from the D3 model, the coefficients are obtained on-the-fly by numerical Casimir-Polder integration of the dynamic, atomic polarizabilities α(iω). Most importantly, electronic density information is now…
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Authors
3Topics & keywords
Topics
Keywords
- Density functional theory
- Atom (system on chip)
- Dipole
- Physics
- Isotropy
- Dispersion (optics)
- Quantum mechanics
- Statistical physics
UN Sustainable Development Goals
- Affordable and clean energy
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