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Autori principali: Cheong, Sang-Wook, Huang, Fei-Ting
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.16277
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author Cheong, Sang-Wook
Huang, Fei-Ting
author_facet Cheong, Sang-Wook
Huang, Fei-Ting
contents Kinetomagnetism refers to magnetization induced by (electric) current, encompassing longitudinal or transverse effects and even- or odd-order phenomena. The essential prerequisite for kinetomagnetism is the breaking of PT (=Parity times Time reversal) symmetry. Altermagnets, characterized by full spin compensation and broken PT symmetry, are associated with spin-split electronic bands. Altermagnets with non-zero net magnetizations (M-type) fall within the ferromagnetic point group and are classified as orbital ferrimagnets. In contrast, S- and A-type altermagnets only exhibit non-zero net magnetizations under external perturbations, such as (electric) current or mechanical stress, which preserve PT symmetry. This study delves into the intriguing interplay between altermagnetism and kinetomagnetism, emphasizing magnetic point group classifications, called as the SAM classification. Various orders of the anomalous Hall effect are analyzed alongside kinetomagnetism, extending the discussion to certain non-magnetic materials with low symmetry. The MPG analysis for kinetomagnetism and altermagnetism highlights significant scientific and technological opportunities, particularly in materials explorations.
format Preprint
id arxiv_https___arxiv_org_abs_2503_16277
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Kinetomagnetism and Altermagnetism
Cheong, Sang-Wook
Huang, Fei-Ting
Strongly Correlated Electrons
Kinetomagnetism refers to magnetization induced by (electric) current, encompassing longitudinal or transverse effects and even- or odd-order phenomena. The essential prerequisite for kinetomagnetism is the breaking of PT (=Parity times Time reversal) symmetry. Altermagnets, characterized by full spin compensation and broken PT symmetry, are associated with spin-split electronic bands. Altermagnets with non-zero net magnetizations (M-type) fall within the ferromagnetic point group and are classified as orbital ferrimagnets. In contrast, S- and A-type altermagnets only exhibit non-zero net magnetizations under external perturbations, such as (electric) current or mechanical stress, which preserve PT symmetry. This study delves into the intriguing interplay between altermagnetism and kinetomagnetism, emphasizing magnetic point group classifications, called as the SAM classification. Various orders of the anomalous Hall effect are analyzed alongside kinetomagnetism, extending the discussion to certain non-magnetic materials with low symmetry. The MPG analysis for kinetomagnetism and altermagnetism highlights significant scientific and technological opportunities, particularly in materials explorations.
title Kinetomagnetism and Altermagnetism
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2503.16277