Volume 254, 2024

Accurate and interpretable representation of correlated electronic structure via Tensor Product Selected CI

Abstract

The task of computing wavefunctions that are accurate, yet simple enough mathematical objects to use for reasoning, has long been a challenge in quantum chemistry. The difficulty in drawing physical conclusions from a wavefunction is often related to the generally large number of configurations with similar weights. In Tensor Product Selected Configuration Interaction (TPSCI), we use a locally correlated tensor product state basis, which has the effect of concentrating the weight of a state onto a smaller number of physically interpretable degrees of freedom. In this paper, we apply TPSCI to a series of three molecular systems ranging in separability, one of which is the first application of TPSCI to an open-shell bimetallic system. For each of these systems, we obtain accurate solutions to large active spaces, and analyze the resulting wavefunctions through a series of different approaches including (i) direct inspection of the TPS basis coefficients, (ii) construction of Bloch effective Hamiltonians, and (iii) computation of cluster correlation functions.

Graphical abstract: Accurate and interpretable representation of correlated electronic structure via Tensor Product Selected CI

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Article information

Article type
Paper
Submitted
05 3 2024
Accepted
19 3 2024
First published
28 3 2024
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2024,254, 130-156

Accurate and interpretable representation of correlated electronic structure via Tensor Product Selected CI

N. M. Braunscheidel, A. Bachhar and N. J. Mayhall, Faraday Discuss., 2024, 254, 130 DOI: 10.1039/D4FD00049H

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