Building a New
Platform for Significantly Improving
Performance of Hartree–Fock and CCSD(T) Correlation Energy
Based on Two-Point Complete Basis Set Extrapolation Schemes
posted on 2024-04-30, 10:30authored byZhao-kai Xi, Yi-hong Ding, Xiao Tian
The leading cause of high expense in gold standard coupled
cluster
theory is that calculations of electronic energies converge exceedingly
slowly with an increased basis set size. Extrapolation principally
allows for achieving higher-quality outcomes at reduced costs. Numerous
extrapolation formulas have been developed, with attempts to predict
energies up to the complete basis set limit. Unfortunately, since
the intricate shape of the function hinges on the molecular properties
with the highest angular momentum of the basis set, the accuracy of
the extrapolated energies highly depends on the fitted empirical parameters,
which rely on the quality of the data sets for fitting. In this work,
to overcome the extrapolation deficiency caused by the very limited
data sets and smaller basis sets in the early stages, we constructed
a new benchmark platform that includes a broader data set of 183 species
(containing open-shell, closed-shell, ionic, and neutral species)
and a larger basis set up to aug-cc-pV6Z. The newly optimized parameters
can significantly improve the energy-predictive abilities of ten published
formulas. Notably, all ten formulas perform quite similarly under
the new platform with the reoptimized parameters. Finally, we built
an online calculator for researchers to use for these extrapolation
schemes. Our work would reignite the interest and applications of
the underestimated formulas.