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Main Authors: Passos, Daniel, Souza, Ivo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.16121
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author Passos, Daniel
Souza, Ivo
author_facet Passos, Daniel
Souza, Ivo
contents We present a systematic study of bound relations between different electronic properties of magnetic crystals: electron density, effective mass, orbital magnetization, localization length, Chern invariant, and electric susceptibility. All relations are satisfied for a group of low-lying bands, while some remain valid for upper bands. New results include a lower bound on the electric susceptibility of Chern insulators, and an upper bound on the sum-rule part of the orbital magnetization. In addition, bounds involving the Chern invariant are generalized from two dimensions (Chern number) to three (Chern vector). Bound relations are established for metals as well as insulators, and are illustrated for model systems. The manner in which they approach saturation in a model Chern insulator with tunable flat bands is analyzed in terms of the optical absorption spectrum.
format Preprint
id arxiv_https___arxiv_org_abs_2509_16121
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Electronic bounds in magnetic crystals
Passos, Daniel
Souza, Ivo
Materials Science
We present a systematic study of bound relations between different electronic properties of magnetic crystals: electron density, effective mass, orbital magnetization, localization length, Chern invariant, and electric susceptibility. All relations are satisfied for a group of low-lying bands, while some remain valid for upper bands. New results include a lower bound on the electric susceptibility of Chern insulators, and an upper bound on the sum-rule part of the orbital magnetization. In addition, bounds involving the Chern invariant are generalized from two dimensions (Chern number) to three (Chern vector). Bound relations are established for metals as well as insulators, and are illustrated for model systems. The manner in which they approach saturation in a model Chern insulator with tunable flat bands is analyzed in terms of the optical absorption spectrum.
title Electronic bounds in magnetic crystals
topic Materials Science
url https://arxiv.org/abs/2509.16121