# Gaussian basis sets for use in correlated molecular calculations. I. The atoms boron through neon and hydrogen

**T.H. Dunning**

CiteWeb id: 19890000004

CiteWeb score: 29942

DOI: 10.1063/1.456153

In the past, basis sets for use in correlated molecular calculations have largely been taken from single configuration calculations. Recently, Almlof, Taylor, and co‐workers have found that basis sets of natural orbitals derived from correlated atomic calculations (ANOs) provide an excellent description of molecular correlation effects. We report here a careful study of correlation effects in the oxygen atom, establishing that compact sets of primitive Gaussian functions effectively and efficiently describe correlation effects i f the exponents of the functions are optimized in atomic correlated calculations, although the primitive (s p) functions for describing correlation effects can be taken from atomic Hartree–Fock calculations i f the appropriate primitive set is used. Test calculations on oxygen‐containing molecules indicate that these primitive basis sets describe molecular correlation effects as well as the ANO sets of Almlof and Taylor. Guided by the calculations on oxygen, basis sets for use in correlated atomic and molecular calculations were developed for all of the first row atoms from boron through neon and for hydrogen. As in the oxygen atom calculations, it was found that the incremental energy lowerings due to the addition of correlating functions fall into distinct groups. This leads to the concept of c o r r e l a t i o n c o n s i s t e n t b a s i s s e t s, i.e., sets which include all functions in a given group as well as all functions in any higher groups. Correlation consistent sets are given for all of the atoms considered. The most accurate sets determined in this way, [5s4p3d2f1g], consistently yield 99% of the correlation energy obtained with the corresponding ANO sets, even though the latter contains 50% more primitive functions and twice as many primitive polarization functions. It is estimated that this set yields 94%–97% of the total (HF+1+2) correlation energy for the atoms neon through boron.

**Gaussian basis sets for use in correlated molecular calculations. I. The atoms boron through neon and hydrogen**" is placed in the Top 100 of the best publications in CiteWeb. Also in the category Chemistry it is included to the Top 100. Additionally, the publicaiton "

- www.researchgate.net/profile/Thom_Dunning/publication/220044025_Gaussian_basis_sets_for_use_in_correlated_molecular_calculations._I._The_atoms_boron_through_neon_and_hydrogen/links/53ce95120cf2aada06e6a5f1.pdf
- scitation.aip.org/content/aip/journal/jcp/90/2/10.1063/1.456153
- adsabs.harvard.edu/abs/1989JChPh..90.1007D
- www.osti.gov/scitech/biblio/6593601

T.H. Dunning,

Gaussian basis sets for use in correlated molecular calculations. I. The atoms boron through neon and hydrogen(1989)## HTML code:

## Wiki code: