Volume 254, 2024

Striking the right balance of encoding electron correlation in the Hamiltonian and the wavefunction ansatz

Abstract

Multi-configurational electronic structure theory delivers the most versatile approximations to many-electron wavefunctions, flexible enough to deal with all sorts of transformations, ranging from electronic excitations, to open-shell molecules and chemical reactions. Multi-configurational models are therefore essential to establish universally applicable, predictive ab initio methods for chemistry. Here, we present a discussion of explicit correlation approaches which address the nagging problem of dealing with static and dynamic electron correlation in multi-configurational active-space approaches. We review the latest developments and then point to their key obstacles. Our discussion is supported by new data obtained with tensor network methods. We argue in favor of simple electron-only correlator expressions that may allow one to define transcorrelated models in which the correlator does not bear a dependence on molecular structure.

Graphical abstract: Striking the right balance of encoding electron correlation in the Hamiltonian and the wavefunction ansatz

Associated articles

Article information

Article type
Paper
Submitted
13 مارٕچ 2024
Accepted
02 میٔ 2024
First published
03 میٔ 2024
This article is Open Access
Creative Commons BY-NC license

Faraday Discuss., 2024,254, 359-381

Striking the right balance of encoding electron correlation in the Hamiltonian and the wavefunction ansatz

K. Szenes, M. Mörchen, P. Fischill and M. Reiher, Faraday Discuss., 2024, 254, 359 DOI: 10.1039/D4FD00060A

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