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Main Authors: Kostroun, Benjamin, Asaba, Tomoya, Thomas, Sean M., Bauer, Eric D., Savrasov, Sergey Y., Ronning, Filip, Ivanov, Vsevolod
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.00173
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_version_ 1866909933593690112
author Kostroun, Benjamin
Asaba, Tomoya
Thomas, Sean M.
Bauer, Eric D.
Savrasov, Sergey Y.
Ronning, Filip
Ivanov, Vsevolod
author_facet Kostroun, Benjamin
Asaba, Tomoya
Thomas, Sean M.
Bauer, Eric D.
Savrasov, Sergey Y.
Ronning, Filip
Ivanov, Vsevolod
contents In magnetic topological materials, time-reversal symmetry breaking gives rise to topological point and line nodes with distinctive signatures in the anomalous Hall and anomalous Nernst conductivity that satisfy the well-known Mott relation. However, this relationship can fail for doping-dependent transport measurements of materials with complex magnetism, topology, and electronic correlations. In this work, we present transport measurements of the correlated topological metal UCoAl doped with Ru, which appear to violate the Mott relation. We develop a model that captures the evolution of Stoner magnetism and topological Weyl points as a function of doping. Using this model, we show how the correlated flat band in this material pins the Weyl points to the Fermi energy, and demonstrate how this explains the unusual doping-dependent behavior of the anomalous Hall and anomalous Nernst conductivities in this material, while the Mott relation is in fact satisfied at each doping level.
format Preprint
id arxiv_https___arxiv_org_abs_2512_00173
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Exploring the apparent violation of the Mott relation in a noncentrosymmetric kagome ferromagnet
Kostroun, Benjamin
Asaba, Tomoya
Thomas, Sean M.
Bauer, Eric D.
Savrasov, Sergey Y.
Ronning, Filip
Ivanov, Vsevolod
Strongly Correlated Electrons
Materials Science
In magnetic topological materials, time-reversal symmetry breaking gives rise to topological point and line nodes with distinctive signatures in the anomalous Hall and anomalous Nernst conductivity that satisfy the well-known Mott relation. However, this relationship can fail for doping-dependent transport measurements of materials with complex magnetism, topology, and electronic correlations. In this work, we present transport measurements of the correlated topological metal UCoAl doped with Ru, which appear to violate the Mott relation. We develop a model that captures the evolution of Stoner magnetism and topological Weyl points as a function of doping. Using this model, we show how the correlated flat band in this material pins the Weyl points to the Fermi energy, and demonstrate how this explains the unusual doping-dependent behavior of the anomalous Hall and anomalous Nernst conductivities in this material, while the Mott relation is in fact satisfied at each doping level.
title Exploring the apparent violation of the Mott relation in a noncentrosymmetric kagome ferromagnet
topic Strongly Correlated Electrons
Materials Science
url https://arxiv.org/abs/2512.00173