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A Simplified State Interaction for Matrix Product State Wave Functions

29 June 2021, Version 1
Working Paper
This content is an early or alternative research output and has not been peer-reviewed by Cambridge University Press at the time of posting.

Abstract

We present an approximation to the state-interaction approach for matrix product state (MPS) wave functions (MPSSI) in a non-orthogonal molecular orbital basis, first presented by Knecht et al. [J. Chem. Theory Comput., 2016, 28, 5881], that allows for a significant reduction of the computational cost without significantly compromising its accuracy. The approximation is well-suited if the molecular orbital basis is close to orthogonality, and its reliability may be estimated a-priori with a single numerical parameter. For an example of a platinum azide complex, our approximation offers up to 63-fold reduction in computational time compared to the original method for wavefunction overlaps and spin-orbit couplings, while still maintaining numerical accuracy.

Supplementary materials

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Description
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Computational details
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Computational details for all the calculations and the active orbitals for CASSCF and DMRG-SCF calculations.
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Now Published

Simplified State Interaction for Matrix Product State Wave Functions [opens in a new tab]
Leon Freitag, Alberto Baiardi, Stefan Knecht, Leticia González journal article
Journal of Chemical Theory and Computation , Volume 17, Issue 12
Online publication date: Dec 03, 2021

Version History

Jun 29, 2021 Version 1

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The content is available under CC BY NC 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv-2021-brv78
D O I: 10.26434/chemrxiv-2021-brv78 [opens in a new tab]

Funding

Austrian Science Fund
J 3935-N34

Author’s competing interest statement

The author(s) have declared they have no conflict of interest with regard to this content

Ethics

The author(s) have declared ethics committee/IRB approval is not relevant to this content

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