English

A Simple 'Range Extender' for Basis Set Extrapolation Methods for MP2 and Coupled Cluster Correlation Energies

Chemical Physics 2020-05-15 v1

Abstract

We discuss the interrelations between various basis set extrapolation formulas and show that for the nZaPa and aug-cc-pVnZ basis set formulas, for n=4--6 their behavior closely resembles the Petersson (L+a)^{-3} formula with a shift a specific to the basis set family and level of theory. This is functionally equivalent to the Pansini-Varandas extrapolation for large L. This naturally leads to a simple way to extend these extrapolations to n=7 and higher. The formula is validated by comparison with newly optimized extrapolation factors for the AV{6,7}Z basis set pairs and literature values for {6,7}ZaPa. For L\geq5, the CCSD extrapolations of both the Schwenke and Varandas type are functionally equivalent to E(L)=E_\infty+A.(L-0.30)^{-3}, i.e., E(\infty)=E(L)+[E(L)-E(L-1)]/([(L-0.30)/(L-1.30)]^3-1)

Cite

@article{arxiv.1804.08844,
  title  = {A Simple 'Range Extender' for Basis Set Extrapolation Methods for MP2 and Coupled Cluster Correlation Energies},
  author = {Jan M. L. Martin},
  journal= {arXiv preprint arXiv:1804.08844},
  year   = {2020}
}

Comments

AIP Conference Proceedings, in press (ICCMSE-2018 issue); 4 pages, PDF

R2 v1 2026-06-23T01:33:31.524Z