posted on 2021-02-10, 20:42authored byAlan E. Rask, Paul M. Zimmerman
An efficacious approximation to full
configuration interaction
(FCI) is adapted to calculate singlet–triplet gaps for transition-metal
complexes. This strategy, incremental FCI (iFCI), uses a many-body expansion to systematically add
correlation to a simple reference wave function and therefore achieves
greatly reduced computational costs compared to FCI. iFCI through
the 3-body expansion is demonstrated on four model transition-metal
complexes involving the metals Zn, V, and Cu. Screening techniques
to increase the computational efficiency of iFCI are proposed and
tested, showing reduction in the number of 3-body terms by more than
90% with controlled errors. The largest complex treated herein by
iFCI has 142 valence electrons, all of which are correlated among
the full set of 444 active orbitals. Computed spin gaps approach experimental
results for the four complexes, though room for improvement remains.