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Airy‐Like Hyperbolic Shear Polaritons in High Symmetry van der Waals Crystals.

Authors :
Bai, Yihua
Zhang, Qing
Zhang, Tan
Lv, Haoran
Yan, Jiadian
Wang, Jiandong
Fu, Shenhe
Hu, Guangwei
Qiu, Cheng‐Wei
Yang, Yuanjie
Source :
Laser & Photonics Reviews. Jul2024, Vol. 18 Issue 7, p1-7. 7p.
Publication Year :
2024

Abstract

Controlling light at the nanoscale by exploiting ultra‐confined polaritons—hybrid light and matter waves—in various van der Waals (vdW) materials empowers unique opportunities for many nanophotonic on‐chip technologies. So far, mainstream approaches have relied on interfacial techniques (e.g., refractive optics, meta‐optics, and moire engineering) to manipulate the polariton wavefront. Here, it is proposed that orbital angular momentum (OAM) of incident light can offer a new degree of freedom to structure vdW polaritons. With vortex excitations, a new class of accelerating polariton waves is observed—Airy‐like hyperbolic phonon polaritons (PhPs) in high‐symmetry orthorhombic vdW crystal α‐MoO3. In analogous to the well‐known Airy beams in free space, such Airy‐like PhPs also exhibit self‐accelerating, nonspreading, and self‐healing characteristics. Interestingly, the helical phase gradient of the vortex beam leads to asymmetry excitation of polaritons, as a result, the Airy‐like PhPs possess asymmetric propagation features even with a symmetric mode, analogous to the asymmetry hyperbolic shear polaritons in low‐symmetry crystals. The finding highlights the potential of OAM to manipulate polaritons in vdW materials, which can be further extended into a variety of applications such as active structured polaritonic devices. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
18638880
Volume :
18
Issue :
7
Database :
Academic Search Index
Journal :
Laser & Photonics Reviews
Publication Type :
Academic Journal
Accession number :
179140803
Full Text :
https://doi.org/10.1002/lpor.202400041