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Observation of naturally canalized phonon polaritons in LiV2O5 thin layers

Ana I. F. Tresguerres‐Mata, C. Lanza, Javier Taboada‐Gutiérrez, Joseph R. Matson, Gonzalo Álvarez‐Pérez, Masahiko Isobe, Aitana Tarazaga Martín-Luengo, Jiahua Duan, Stefan Partel, M. Vélez, Javier Martín‐Sánchez, Alexey Y. Nikitin, Joshua D. Caldwell, Pablo Alonso‐González

2024Nature Communications27 citationsDOIOpen Access PDF

Abstract

Abstract Polariton canalization is characterized by intrinsic collimation of energy flow along a single crystalline axis. This optical phenomenon has been experimentally demonstrated at the nanoscale by stacking and twisting van der Waals (vdW) layers of α-MoO 3 , by combining α-MoO 3 and graphene, or by fabricating an h-BN metasurface. However, these material platforms have significant drawbacks, such as complex fabrication and high optical losses in the case of metasurfaces. Ideally, it would be possible to canalize polaritons “naturally” in a single pristine layer. Here, we theoretically predict and experimentally demonstrate naturally canalized phonon polaritons (PhPs) in a single thin layer of the vdW crystal LiV 2 O 5 . In addition to canalization, PhPs in LiV 2 O 5 exhibit strong field confinement ( $${{{{{{\boldsymbol{\lambda }}}}}}}_{{{{{{\bf{p}}}}}}} \sim \frac{{{{{{{\boldsymbol{\lambda }}}}}}}_{{{{{{\bf{0}}}}}}}}{{{{{{\bf{27}}}}}}}$$ <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:msub> <mml:mrow> <mml:mi>λ</mml:mi> </mml:mrow> <mml:mrow> <mml:mi>p</mml:mi> </mml:mrow> </mml:msub> <mml:mo>~</mml:mo> <mml:mfrac> <mml:mrow> <mml:msub> <mml:mrow> <mml:mi>λ</mml:mi> </mml:mrow> <mml:mrow> <mml:mi>0</mml:mi> </mml:mrow> </mml:msub> </mml:mrow> <mml:mrow> <mml:mi>27</mml:mi> </mml:mrow> </mml:mfrac> </mml:math> ), slow group velocity (0.0015c), and ultra-low losses (lifetimes of 2 ps). Our findings are promising for the implementation of low-loss optical nanodevices where strongly directional light propagation is needed, such as waveguides or optical routers.

Topics & Concepts

PolaritonStackingPhononGrapheneMaterials sciencevan der Waals forceFabricationOptoelectronicsCondensed matter physicsLayer (electronics)NanophotonicsThin layersNanotechnologyPhysicsMoleculeMedicineQuantum mechanicsComposite materialPathologyAlternative medicineNuclear magnetic resonancePlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsPhotonic and Optical Devices
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