Saved in:
Bibliographic Details
Main Authors: Zhang, Yi-Fan, Ni, Xiao-Sheng, Chen, Ke, Cao, Kun
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.12920
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913740469829632
author Zhang, Yi-Fan
Ni, Xiao-Sheng
Chen, Ke
Cao, Kun
author_facet Zhang, Yi-Fan
Ni, Xiao-Sheng
Chen, Ke
Cao, Kun
contents Altermagnetism has been proposed as a new type of magnetism, simultaneously exhibiting compensated spin moments in real space and spin-split electronic bands in reciprocal space. Alternating chiral magnon splitting is considered a unique feature of altermagnets. In this work, utilizing linear spin wave theory (LSWT), which is based on a localized spin picture and itinerant time-dependent density functional perturbation theory (TD-DFPT), we investigate the spin fluctuation spectra of altermagnetic CrSb. Along the L-$Γ$-L$^{\prime}$ path, the LSWT provides a chiral magnon splitting of up to 9 meV, located at high excitation energies around 140 meV, which is identified to be primarily driven by the splitting of two long-range exchange interactions, with exchange paths along the body diagonal lines of the unit cell. On the other hand, the more realistic TD-DFPT obtains more significant splitting of $\sim$ 30 meV at maximum. However, the splitting is severely smeared out due to strong Landau damping from the Stoner continuum, which may make it difficult to observe experimentally, e.g. through inelastic neutron scattering. We further provide a brief discussion on the connection between the Stoner excitations and the chiral magnon splitting.
format Preprint
id arxiv_https___arxiv_org_abs_2503_12920
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Chiral magnon splitting in altermagnetic CrSb from first principles
Zhang, Yi-Fan
Ni, Xiao-Sheng
Chen, Ke
Cao, Kun
Materials Science
Altermagnetism has been proposed as a new type of magnetism, simultaneously exhibiting compensated spin moments in real space and spin-split electronic bands in reciprocal space. Alternating chiral magnon splitting is considered a unique feature of altermagnets. In this work, utilizing linear spin wave theory (LSWT), which is based on a localized spin picture and itinerant time-dependent density functional perturbation theory (TD-DFPT), we investigate the spin fluctuation spectra of altermagnetic CrSb. Along the L-$Γ$-L$^{\prime}$ path, the LSWT provides a chiral magnon splitting of up to 9 meV, located at high excitation energies around 140 meV, which is identified to be primarily driven by the splitting of two long-range exchange interactions, with exchange paths along the body diagonal lines of the unit cell. On the other hand, the more realistic TD-DFPT obtains more significant splitting of $\sim$ 30 meV at maximum. However, the splitting is severely smeared out due to strong Landau damping from the Stoner continuum, which may make it difficult to observe experimentally, e.g. through inelastic neutron scattering. We further provide a brief discussion on the connection between the Stoner excitations and the chiral magnon splitting.
title Chiral magnon splitting in altermagnetic CrSb from first principles
topic Materials Science
url https://arxiv.org/abs/2503.12920