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Main Authors: Chen, Hao, Wang, Hanyu, Wang, Tingting, Tang, Yongsen, Li, Haoshu, Yan, Xiaohong, Zhang, Lifa
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.03742
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author Chen, Hao
Wang, Hanyu
Wang, Tingting
Tang, Yongsen
Li, Haoshu
Yan, Xiaohong
Zhang, Lifa
author_facet Chen, Hao
Wang, Hanyu
Wang, Tingting
Tang, Yongsen
Li, Haoshu
Yan, Xiaohong
Zhang, Lifa
contents In crystalline systems, chiral crystals cannot interconvert to their enantiomorph post-synthesis without undergoing melting-recrystallization processes. However, recent work indicates that ultrafast terahertz-polarized light has been shown to enable dynamic control of structural chirality in the antiferrochiral boron phosphate (BPO$_4$) crystal. Here, using first-principles calculations and nonlinear phonon dynamics simulations, we investigate the underlying physics of lattice dynamics in this system. The results demonstrate that polarized optical pumping not only induces chiral phonons but also establishes a chirality-selective filtering mechanism, both of which can be reversibly switched by tuning the polarization of the excitation pulse. Furthermore, under a temperature gradient, the pump-induced chiral phonons give rise to ultrafast phonon magnetization, with its direction also controllable via light polarization. Our findings establish a new paradigm for ultrafast optical control of phonon chirality via dynamic chirality switching, offering promising opportunities for chiral information transfer and the design of chiral phononic devices.
format Preprint
id arxiv_https___arxiv_org_abs_2506_03742
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ultrafast switching of photoinduced phonon chirality in the antiferrochiral BPO$_{4}$ crystal
Chen, Hao
Wang, Hanyu
Wang, Tingting
Tang, Yongsen
Li, Haoshu
Yan, Xiaohong
Zhang, Lifa
Materials Science
In crystalline systems, chiral crystals cannot interconvert to their enantiomorph post-synthesis without undergoing melting-recrystallization processes. However, recent work indicates that ultrafast terahertz-polarized light has been shown to enable dynamic control of structural chirality in the antiferrochiral boron phosphate (BPO$_4$) crystal. Here, using first-principles calculations and nonlinear phonon dynamics simulations, we investigate the underlying physics of lattice dynamics in this system. The results demonstrate that polarized optical pumping not only induces chiral phonons but also establishes a chirality-selective filtering mechanism, both of which can be reversibly switched by tuning the polarization of the excitation pulse. Furthermore, under a temperature gradient, the pump-induced chiral phonons give rise to ultrafast phonon magnetization, with its direction also controllable via light polarization. Our findings establish a new paradigm for ultrafast optical control of phonon chirality via dynamic chirality switching, offering promising opportunities for chiral information transfer and the design of chiral phononic devices.
title Ultrafast switching of photoinduced phonon chirality in the antiferrochiral BPO$_{4}$ crystal
topic Materials Science
url https://arxiv.org/abs/2506.03742