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Auteurs principaux: Kikuchi, Risako, Endo, Junya, Yamakage, Ai
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2511.16969
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author Kikuchi, Risako
Endo, Junya
Yamakage, Ai
author_facet Kikuchi, Risako
Endo, Junya
Yamakage, Ai
contents The energy-dependent electrical conductivity in spin-1 chiral fermion systems with disorder is studied using the self-consistent Born approximation. A distinct cusp-like feature appears at an energy different from the band-crossing point, arising from the multifold band-crossing structure formed by the Dirac and trivial bands. The energy position of the cusp and the corresponding value of the electrical conductivity are found to depend sensitively on both the impurity scattering strength and the curvature of the trivial band. These findings demonstrate the critical role of multifold band crossings and disorder-induced broadening of energy levels in determining the transport properties, offering theoretical insight into the unconventional conductivity behavior observed in topological semimetals hosting spin-1 chiral fermions.
format Preprint
id arxiv_https___arxiv_org_abs_2511_16969
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Cusped Electrical Conductivity in Spin-1 Chiral Fermion Systems Arising from Multifold Band Degeneracy
Kikuchi, Risako
Endo, Junya
Yamakage, Ai
Mesoscale and Nanoscale Physics
The energy-dependent electrical conductivity in spin-1 chiral fermion systems with disorder is studied using the self-consistent Born approximation. A distinct cusp-like feature appears at an energy different from the band-crossing point, arising from the multifold band-crossing structure formed by the Dirac and trivial bands. The energy position of the cusp and the corresponding value of the electrical conductivity are found to depend sensitively on both the impurity scattering strength and the curvature of the trivial band. These findings demonstrate the critical role of multifold band crossings and disorder-induced broadening of energy levels in determining the transport properties, offering theoretical insight into the unconventional conductivity behavior observed in topological semimetals hosting spin-1 chiral fermions.
title Cusped Electrical Conductivity in Spin-1 Chiral Fermion Systems Arising from Multifold Band Degeneracy
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2511.16969