English

Multiconfigurational short-range on-top pair-density functional theory

Chemical Physics 2025-01-16 v2

Abstract

We present the theory and implementation of a fully variational wave function -- density functional theory (DFT) hybrid model, which is applicable to many cases of strong correlation. We denote this model the multiconfigurational self-consistent on-top pair-density functional theory model (MC-srPDFT). We have previously shown how the multi-configurational short-range DFT hybrid model (MC-srDFT) can describe many multiconfigurational cases of any spin symmetry, and also state-specific calculations on excited states (Hedeg{\aa}rd et al. J. Chem. Phys. 148, 2018, 214103). However, the srDFT part of the MC-srDFT has some deficiencies that it shares with Kohn-Sham DFT; in particular (1) self-interaction errors (albeit reduced because of the range separation), (2) that different MS_S states incorrectly become non-degenerate, and (3) that singlet and non-singlet states dissociating to the same open-shell fragments incorrectly lead to different electronic energies at dissociation. The model we present in this paper corrects these deficiencies by introducing the on-top pair density as an auxiliary variable replacing the spin density. Unlike other models in the literature, our model is fully variational and employs a long-range version of the on-top pair density. The implementation is a second-order optimization algorithm ensuring robust convergence to both ground- and excited states. We show how MC-srPDFT solves the mentioned challenges by sample calculations on the ground state singlet curve of H2_2, N2_2, and Cr2_2 and the lowest triplet curves for N2_2 and Cr2_2. Furthermore, the rotational barrier for ethene is investigated for the S0_0 and T1_1 states. The calculations show correct degeneracy between the singlet and triplet curves at dissociation and the results are invariant to the choice of MS_S value for the triplet curves.

Keywords

Cite

@article{arxiv.2409.05213,
  title  = {Multiconfigurational short-range on-top pair-density functional theory},
  author = {Frederik Kamper Jørgensen and Erik Rosendahl Kjellgren and Hans Jørgen Aagaard Jensen and Erik Donovan Hedegård},
  journal= {arXiv preprint arXiv:2409.05213},
  year   = {2025}
}
R2 v1 2026-06-28T18:37:54.743Z