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Autori principali: Cartier, Nicolas, Giesbertz, Klaas
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.18996
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author Cartier, Nicolas
Giesbertz, Klaas
author_facet Cartier, Nicolas
Giesbertz, Klaas
contents Many electronic structure methods rely on the minimization of the energy of the system with respect to the one-body reduced density matrix (1-RDM). To formulate a minimization algorithm, the 1-RDM is often expressed in terms of its eigenvectors via an orthonormal transformation and its eigenvalues. This transformation drastically alters the energy landscape. Especially in 1-RDM functional theory this means that the convexity of the energy functional is lost. We show that degeneracies in the occupation numbers can lead to additional critical points which are classified as saddle points. Using a Cayley or Householder parametrization for the orthonormal transformation, no extra critical points arise. In case of Given's rotations or the exponential, additional critical points can arise, which are of no concern in practical minimization. These findings provide an explanation for the success of recent minimization procedures using second-order information.
format Preprint
id arxiv_https___arxiv_org_abs_2501_18996
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Impact of Parametrizations of the One-Body Reduced Density Matrix on the Energy Landscape
Cartier, Nicolas
Giesbertz, Klaas
Chemical Physics
Many electronic structure methods rely on the minimization of the energy of the system with respect to the one-body reduced density matrix (1-RDM). To formulate a minimization algorithm, the 1-RDM is often expressed in terms of its eigenvectors via an orthonormal transformation and its eigenvalues. This transformation drastically alters the energy landscape. Especially in 1-RDM functional theory this means that the convexity of the energy functional is lost. We show that degeneracies in the occupation numbers can lead to additional critical points which are classified as saddle points. Using a Cayley or Householder parametrization for the orthonormal transformation, no extra critical points arise. In case of Given's rotations or the exponential, additional critical points can arise, which are of no concern in practical minimization. These findings provide an explanation for the success of recent minimization procedures using second-order information.
title Impact of Parametrizations of the One-Body Reduced Density Matrix on the Energy Landscape
topic Chemical Physics
url https://arxiv.org/abs/2501.18996