English

State-Specific Coupled-Cluster Methods for Excited States

Chemical Physics 2024-06-13 v2 Materials Science Nuclear Theory

Abstract

We reexamine Δ\DeltaCCSD, a state-specific coupled-cluster (CC) with single and double excitations (CCSD) approach that targets excited states through the utilization of non-Aufbau determinants. This methodology is particularly efficient when dealing with doubly excited states, a domain where the standard equation-of-motion CCSD (EOM-CCSD) formalism falls short. Our goal here is to evaluate the effectiveness of Δ\DeltaCCSD when applied to other types of excited states, comparing its consistency and accuracy with EOM-CCSD. To this end, we report a benchmark on excitation energies computed with the Δ\DeltaCCSD and EOM-CCSD methods, for a set of molecular excited-state energies that encompasses not only doubly excited states but also doublet-doublet transitions and (singlet and triplet) singly-excited states of closed-shell systems. In the latter case, we rely on a minimalist version of multireference CC known as the two-determinant CCSD method to compute the excited states. Our dataset, consisting of 276 excited states stemming from the \textsc{quest} database [V\'eril \textit{et al.}, \textit{WIREs Comput. Mol. Sci.} \textbf{2021}, 11, e1517], provides a significant base to draw general conclusions concerning the accuracy of Δ\DeltaCCSD. Except for the doubly-excited states, we found that Δ\DeltaCCSD underperforms EOM-CCSD. For doublet-doublet transitions, the difference between the mean absolute errors (MAEs) of the two methodologies (of \SI{0.10}{\eV} and \SI{0.07}{\eV}) is less pronounced than that obtained for singly-excited states of closed-shell systems (MAEs of \SI{0.15}{\eV} and \SI{0.08}{\eV}). This discrepancy is largely attributed to a greater number of excited states in the latter set exhibiting multiconfigurational characters, which are more challenging for Δ\DeltaCCSD.

Keywords

Cite

@article{arxiv.2401.05048,
  title  = {State-Specific Coupled-Cluster Methods for Excited States},
  author = {Yann Damour and Anthony Scemama and Denis Jacquemin and Fábris Kossoski and Pierre-François Loos},
  journal= {arXiv preprint arXiv:2401.05048},
  year   = {2024}
}

Comments

16 pages, 6 figures

R2 v1 2026-06-28T14:13:04.212Z