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Main Authors: Urru, Andrea, Seleznev, Daniel, Teng, Yujia, Park, Se Young, Reyes-Lillo, Sebastian E., Rabe, Karin M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.18965
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_version_ 1866909775369863168
author Urru, Andrea
Seleznev, Daniel
Teng, Yujia
Park, Se Young
Reyes-Lillo, Sebastian E.
Rabe, Karin M.
author_facet Urru, Andrea
Seleznev, Daniel
Teng, Yujia
Park, Se Young
Reyes-Lillo, Sebastian E.
Rabe, Karin M.
contents G-type antiferromagnetic BiFeO$_3$ is shown to be an altermagnet. We present the band structure using an unconventional scheme designed to highlight the distinctive spin splitting which is characteristic of altermagnets. We define and show plots of the spin-splitting function in reciprocal space. We show that the nodal surfaces of the spin-splitting function that follow from symmetry can be classified into two types, which we call symmetry-enforced and continuity-enforced. We describe the spin-splitting function with a simple parametrization in a basis of symmetry-adapted plane waves. Using group-theory analysis based on irreducible representations of the crystallographic Laue group, we confirm that the altermagnetism of G-type BiFeO$_3$ is $g$-wave and present a complete classification table for the general three-dimensional case. Finally, we discuss the effect of ferroelectric switching on the altermagnetic order, and identify three classes of ferroelectric altermagnets.
format Preprint
id arxiv_https___arxiv_org_abs_2505_18965
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle G-type Antiferromagnetic BiFeO$_3$ is a Multiferroic $g$-wave Altermagnet
Urru, Andrea
Seleznev, Daniel
Teng, Yujia
Park, Se Young
Reyes-Lillo, Sebastian E.
Rabe, Karin M.
Materials Science
G-type antiferromagnetic BiFeO$_3$ is shown to be an altermagnet. We present the band structure using an unconventional scheme designed to highlight the distinctive spin splitting which is characteristic of altermagnets. We define and show plots of the spin-splitting function in reciprocal space. We show that the nodal surfaces of the spin-splitting function that follow from symmetry can be classified into two types, which we call symmetry-enforced and continuity-enforced. We describe the spin-splitting function with a simple parametrization in a basis of symmetry-adapted plane waves. Using group-theory analysis based on irreducible representations of the crystallographic Laue group, we confirm that the altermagnetism of G-type BiFeO$_3$ is $g$-wave and present a complete classification table for the general three-dimensional case. Finally, we discuss the effect of ferroelectric switching on the altermagnetic order, and identify three classes of ferroelectric altermagnets.
title G-type Antiferromagnetic BiFeO$_3$ is a Multiferroic $g$-wave Altermagnet
topic Materials Science
url https://arxiv.org/abs/2505.18965