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Efficient Adiabatic Connection Approach for Strongly Correlated Systems: Application to Singlet–Triplet Gaps of Biradicals

Autor
Pernal Katarzyna
Veis Libor
Sokół Adam
Beran Pavel
Drwal Daria
Data publikacji
Abstrakt (EN)

Strong electron correlation can be captured with multireference wave function methods, but an accurate description of the electronic structure requires accounting for the dynamic correlation, which they miss. In this work, a new approach for the correlation energy based on the adiabatic connection (AC) is proposed. The ACn method accounts for terms up to order n in the coupling constant, and it is size-consistent and free from instabilities. It employs the multireference random phase approximation and the Cholesky decomposition technique, leading to a computational cost growing with the fifth power of the system size. Because of the dependence on only one- and two-electron reduced density matrices, ACn is more efficient than existing ab initio multireference dynamic correlation methods. ACn affords excellent results for singlet–triplet gaps of challenging organic biradicals. The development presented in this work opens new perspectives for accurate calculations of systems with dozens of strongly correlated electrons.

Dyscyplina PBN
nauki chemiczne
Czasopismo
Journal of Physical Chemistry Letters
Tom
13
Zeszyt
20
Strony od-do
4570-4578
Data udostępnienia w otwartym dostępie
2022-05-17
Licencja otwartego dostępu
Uznanie autorstwa - Użycie niekomercyjne - Bez utworów zależnych