Volume 254, 2024

What can quantum information theory offer to quantum chemistry?

Abstract

It is the ultimate goal of this work to foster synergy between quantum chemistry and the flourishing field of quantum information theory. For this, we first translate quantum information concepts, such as entanglement and correlation, into the context of quantum chemical systems. In particular, we establish two conceptually distinct perspectives on ‘electron correlation’, leading to a notion of orbital and particle correlation. We then demonstrate that particle correlation equals total orbital correlation minimized over all orbital bases. Accordingly, particle correlation resembles the minimal, thus intrinsic, complexity of many-electron wave functions, while orbital correlation quantifies their complexity relative to a basis. We illustrate these concepts of intrinsic and extrinsic correlation complexity in molecular systems, which also manifests the crucial link between the two correlation pictures. Our results provide theoretical justification for the long-favored natural orbitals for simplifying electronic structures, and open new pathways for developing more efficient approaches towards the electron correlation problem.

Graphical abstract: What can quantum information theory offer to quantum chemistry?

Associated articles

Article information

Article type
Paper
Submitted
13 mar 2024
Accepted
09 apr 2024
First published
12 apr 2024
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2024,254, 76-106

What can quantum information theory offer to quantum chemistry?

D. Aliverti-Piuri, K. Chatterjee, L. Ding, K. Liao, J. Liebert and C. Schilling, Faraday Discuss., 2024, 254, 76 DOI: 10.1039/D4FD00059E

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