Visualization of topological shear polaritons in gypsum thin films

Pablo Díaz-Núñez; Christian Lanza; Ziwei Wang; Vasyl G. Kravets; Jiahua Duan; José Álvarez-Cuervo; Aitana Tarazaga Martín-Luengo; Alexander N. Grigorenko; Qian Yang; Alexander Paarmann; Joshua Caldwell; Pablo Alonso-González; Artem Mishchenko

doi:10.1126/sciadv.adw3452

Visualization of topological shear polaritons in gypsum thin films

Pablo Díaz-Núñez^*
, Christian Lanza
, Ziwei Wang
, Vasyl G. Kravets
, Jiahua Duan
, José Álvarez-Cuervo
, Aitana Tarazaga Martín-Luengo
, Alexander N. Grigorenko
, Qian Yang
, Alexander Paarmann
, Joshua Caldwell
, Pablo Alonso-González^*
, Artem Mishchenko^*

^*此作品的通讯作者

物理学院

University of Manchester
University of Oviedo
Beijing Institute of Technology
Fritz Haber Institute of the Max Planck Society
Vanderbilt University

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

Low-symmetry crystals have emerged as a platform for exploring unique light-matter interactions in the form of hyperbolic shear polaritons. These excitations exhibit unique properties such as frequency-dispersive optical axes and asymmetric light propagation and energy dissipation. However, only non-vdW materials have been demonstrated to support hyperbolic shear polaritons, limiting their exotic properties and potential applications. Here, we introduce shear phenomena in low symmetry crystals by demonstrating elliptical and canalized shear phonon polaritons in gypsum, an exfoliable monoclinic sulphate mineral. Our results unveil a topological transition from hyperbolic shear to elliptical shear polaritons, passing through a canalization regime with strong field confinement. We observe a notable slowdown of group velocity, reaching values as low as 0.0005c. These findings expand the application scope of low-symmetry crystals with the benefits that an exfoliable material provides, such as stronger field confinement, tunability, and versatility for its incorporation in complex photonic devices.

源语言	英语
文章编号	eadw3452
期刊	Science advances
卷	11
期	29
DOI	https://doi.org/10.1126/sciadv.adw3452
出版状态	已出版 - 18 7月 2025

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title = "Visualization of topological shear polaritons in gypsum thin films",

abstract = "Low-symmetry crystals have emerged as a platform for exploring unique light-matter interactions in the form of hyperbolic shear polaritons. These excitations exhibit unique properties such as frequency-dispersive optical axes and asymmetric light propagation and energy dissipation. However, only non-vdW materials have been demonstrated to support hyperbolic shear polaritons, limiting their exotic properties and potential applications. Here, we introduce shear phenomena in low symmetry crystals by demonstrating elliptical and canalized shear phonon polaritons in gypsum, an exfoliable monoclinic sulphate mineral. Our results unveil a topological transition from hyperbolic shear to elliptical shear polaritons, passing through a canalization regime with strong field confinement. We observe a notable slowdown of group velocity, reaching values as low as 0.0005c. These findings expand the application scope of low-symmetry crystals with the benefits that an exfoliable material provides, such as stronger field confinement, tunability, and versatility for its incorporation in complex photonic devices.",

author = "Pablo D{\'i}az-N{\'u}{\~n}ez and Christian Lanza and Ziwei Wang and Kravets, \{Vasyl G.\} and Jiahua Duan and Jos{\'e} {\'A}lvarez-Cuervo and Mart{\'i}n-Luengo, \{Aitana Tarazaga\} and Grigorenko, \{Alexander N.\} and Qian Yang and Alexander Paarmann and Joshua Caldwell and Pablo Alonso-Gonz{\'a}lez and Artem Mishchenko",

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doi = "10.1126/sciadv.adw3452",

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AU - Díaz-Núñez, Pablo

AU - Lanza, Christian

AU - Wang, Ziwei

AU - Kravets, Vasyl G.

AU - Duan, Jiahua

AU - Álvarez-Cuervo, José

AU - Martín-Luengo, Aitana Tarazaga

AU - Grigorenko, Alexander N.

AU - Yang, Qian

AU - Paarmann, Alexander

AU - Caldwell, Joshua

AU - Alonso-González, Pablo

AU - Mishchenko, Artem

PY - 2025/7/18

Y1 - 2025/7/18

N2 - Low-symmetry crystals have emerged as a platform for exploring unique light-matter interactions in the form of hyperbolic shear polaritons. These excitations exhibit unique properties such as frequency-dispersive optical axes and asymmetric light propagation and energy dissipation. However, only non-vdW materials have been demonstrated to support hyperbolic shear polaritons, limiting their exotic properties and potential applications. Here, we introduce shear phenomena in low symmetry crystals by demonstrating elliptical and canalized shear phonon polaritons in gypsum, an exfoliable monoclinic sulphate mineral. Our results unveil a topological transition from hyperbolic shear to elliptical shear polaritons, passing through a canalization regime with strong field confinement. We observe a notable slowdown of group velocity, reaching values as low as 0.0005c. These findings expand the application scope of low-symmetry crystals with the benefits that an exfoliable material provides, such as stronger field confinement, tunability, and versatility for its incorporation in complex photonic devices.

AB - Low-symmetry crystals have emerged as a platform for exploring unique light-matter interactions in the form of hyperbolic shear polaritons. These excitations exhibit unique properties such as frequency-dispersive optical axes and asymmetric light propagation and energy dissipation. However, only non-vdW materials have been demonstrated to support hyperbolic shear polaritons, limiting their exotic properties and potential applications. Here, we introduce shear phenomena in low symmetry crystals by demonstrating elliptical and canalized shear phonon polaritons in gypsum, an exfoliable monoclinic sulphate mineral. Our results unveil a topological transition from hyperbolic shear to elliptical shear polaritons, passing through a canalization regime with strong field confinement. We observe a notable slowdown of group velocity, reaching values as low as 0.0005c. These findings expand the application scope of low-symmetry crystals with the benefits that an exfoliable material provides, such as stronger field confinement, tunability, and versatility for its incorporation in complex photonic devices.

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Visualization of topological shear polaritons in gypsum thin films

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