Real-space Nanoimaging of Hyperbolic Shear Polaritons in a Monoclinic Crystal

Overview

Journal Nat Nanotechnol

Specialty Biotechnology

Date 2022 Dec 12

PMID 36509927

Authors

Guangwei Hu

Weiliang Ma

Debo Hu

Jing Wu

Chunqi Zheng

Kaipeng Liu

Xudong Zhang

Xiang Ni

Jianing Chen

Xinliang Zhang

Qing Dai

Joshua D Caldwell

Alexander Paarmann

Andrea Alu

Peining Li

Cheng-Wei Qiu

Affiliations

Soon will be listed here.

Abstract

Various optical crystals possess permittivity components of opposite signs along different principal directions in the mid-infrared regime, exhibiting exotic anisotropic phonon resonances. Such materials with hyperbolic polaritons-hybrid light-matter quasiparticles with open isofrequency contours-feature large-momenta optical modes and wave confinement that make them promising for nanophotonic on-chip technologies. So far, hyperbolic polaritons have been observed and characterized in crystals with high symmetry including hexagonal (boron nitride), trigonal (calcite) and orthorhombic (α-MoO or α-VO) crystals, where they obey certain propagation patterns. However, lower-symmetry materials such as monoclinic crystals were recently demonstrated to offer richer opportunities for polaritonic phenomena. Here, using scanning near-field optical microscopy, we report the direct real-space nanoscale imaging of symmetry-broken hyperbolic phonon polaritons in monoclinic CdWO crystals, and showcase inherently asymmetric polariton excitation and propagation associated with the nanoscale shear phenomena. We also introduce a quantitative theoretical model to describe these polaritons that leads to schemes to enhance crystal asymmetry via the damping loss of phonon modes. Ultimately, our findings show that polaritonic nanophotonics is attainable using natural materials with low symmetry, favouring a versatile and general way to manipulate light at the nanoscale.

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