Abstract
Correlation consistent and augmented correlation consistent basis sets have been determined for the second row atoms aluminum through argon. The methodology, originally developed for the first row atoms [T. H. Dunning, Jr., J. Chem. Phys. 90, (1989)] is first applied to sulfur. The exponents for the polarization functions (dfgh) are systematically optimized for a correlated wave function (HF+1+2). The (sp) correlation functions are taken from the appropriate HF primitive sets; it is shown that these functions differ little from the optimum functions. Basis sets of double zeta [4s3p1d], triple zeta [5s4p2d1f], and quadruple zeta [6s5p3d2f1g] quality are defined. Each of these sets is then augmented with diffuse functions to better describe electron affinities and other molecular properties: s and p functions were obtained by optimization for the anion HF energy, while an additional polarization function for each symmetry present in the standard set was optimized for the anion HF+1+2 energy. The results for sulfur are then used to assist in determining double zeta, triple zeta, and quadruple zeta basis sets for the remainder of the second row of the p block.
Keywords
ChemistryGaussianBasis setArgonIonElectronic correlationAtomic physicsWave functionBasis (linear algebra)Polarization (electrochemistry)Molecular physicsComputational chemistryMoleculePhysicsMathematicsPhysical chemistryDensity functional theoryGeometry
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Publication Info
- Year
- 1993
- Type
- article
- Volume
- 98
- Issue
- 2
- Pages
- 1358-1371
- Citations
- 9310
- Access
- Closed
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Cite This
David E. Woon,
Thom H. Dunning
(1993).
Gaussian basis sets for use in correlated molecular calculations. III. The atoms aluminum through argon.
The Journal of Chemical Physics
, 98
(2)
, 1358-1371.
https://doi.org/10.1063/1.464303
Identifiers
- DOI
- 10.1063/1.464303