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Quantum Chemistry
FragPT2: Multi-Fragment Wavefunction Embedding with Perturbative Interactions
arXiv
Authors: Emiel Koridon, Souloke Sen, Lucas Visscher, Stefano Polla
Year
2024
Paper ID
64448
Status
Preprint
Abstract Read
~2 min
Abstract Words
141
Citations
N/A
Abstract
Embedding techniques allow the efficient description of correlations within localized fragments of large molecular systems, while accounting for their environment at a lower level of theory. We introduce FragPT2: a novel embedding framework that addresses multiple interacting active fragments. Fragments are assigned separate active spaces, constructed by localizing canonical molecular orbitals. Each fragment is then solved with a multi-reference method, self-consistently embedded in the mean field from other fragments. Finally, inter-fragment correlations are reintroduced through multi-reference perturbation theory. Our framework provides an exhaustive classification of inter-fragment interaction terms, offering a tool to analyze the relative importance of various processes such as dispersion, charge transfer, and spin exchange. We benchmark FragPT2 on challenging test systems, including \ce{N_2} dimers, multiple aromatic dimers, and butadiene. We demonstrate that our method can be succesful even for fragments defined by cutting through a covalent bond.
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- This paper contributes to the Quantum Chemistry research area in the Quantum Articles archive.
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- Embedding techniques allow the efficient description of correlations within localized fragments of large molecular systems, while accounting for their environment at a lower...
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