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Autori principali: Okamoto, J., Mou, C. Y., Huang, H. Y., Channagowdra, G., Won, C., Du, K., Fang, X., Komleva, E. V., Chen, C. T., Streltsov, S. V., Fujimori, A., Cheong, S-W., Huang, D. J.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.00388
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author Okamoto, J.
Mou, C. Y.
Huang, H. Y.
Channagowdra, G.
Won, C.
Du, K.
Fang, X.
Komleva, E. V.
Chen, C. T.
Streltsov, S. V.
Fujimori, A.
Cheong, S-W.
Huang, D. J.
author_facet Okamoto, J.
Mou, C. Y.
Huang, H. Y.
Channagowdra, G.
Won, C.
Du, K.
Fang, X.
Komleva, E. V.
Chen, C. T.
Streltsov, S. V.
Fujimori, A.
Cheong, S-W.
Huang, D. J.
contents Chirality characterizes the asymmetry between a structure and its mirror image and underlies a wide range of chiral functionalities. In crystallographically chiral materials, phonons with non-zero linear momentum $\textbf{k}$ can acquire a $k$-induced longitudinal magnetization, giving rise to chiral phonons. Helical spin order, with its proper screw-type configuration, breaks all mirror symmetries and therefore carries magnetic chirality. Such helical spins also generate non-relativistic spin splitting for any quasiparticle excitations propagating along the screw axis. To explore the possible connection between chiral phonons and magnetic chirality, we investigated the crystallographically polar and chiral compound (Mn,Ni)$_3$TeO$_6$, which hosts three distinct states: a paramagnetic state, a helical spin state with magnetic chirality, and a collinear spin state without magnetic chirality. We find an approximately tenfold enhancement of chiral-phonon coupling in the helical spin state along the screw axis, compared with both the paramagnetic and collinear spin states. These results identify a new route to amplify chiral phonons through an altermagnetic effect arising from the broken parity-time symmetry in helical spins. %from non-relativistic spin splitting.
format Preprint
id arxiv_https___arxiv_org_abs_2512_00388
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Altermagnetic boosting of chiral phonons
Okamoto, J.
Mou, C. Y.
Huang, H. Y.
Channagowdra, G.
Won, C.
Du, K.
Fang, X.
Komleva, E. V.
Chen, C. T.
Streltsov, S. V.
Fujimori, A.
Cheong, S-W.
Huang, D. J.
Strongly Correlated Electrons
Chirality characterizes the asymmetry between a structure and its mirror image and underlies a wide range of chiral functionalities. In crystallographically chiral materials, phonons with non-zero linear momentum $\textbf{k}$ can acquire a $k$-induced longitudinal magnetization, giving rise to chiral phonons. Helical spin order, with its proper screw-type configuration, breaks all mirror symmetries and therefore carries magnetic chirality. Such helical spins also generate non-relativistic spin splitting for any quasiparticle excitations propagating along the screw axis. To explore the possible connection between chiral phonons and magnetic chirality, we investigated the crystallographically polar and chiral compound (Mn,Ni)$_3$TeO$_6$, which hosts three distinct states: a paramagnetic state, a helical spin state with magnetic chirality, and a collinear spin state without magnetic chirality. We find an approximately tenfold enhancement of chiral-phonon coupling in the helical spin state along the screw axis, compared with both the paramagnetic and collinear spin states. These results identify a new route to amplify chiral phonons through an altermagnetic effect arising from the broken parity-time symmetry in helical spins. %from non-relativistic spin splitting.
title Altermagnetic boosting of chiral phonons
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2512.00388