Ghost Hyperbolic Surface Polaritons in Bulk Anisotropic Crystals

Overview

Journal Nature

Specialty Science

Date 2021 Aug 19

PMID 34408329

Citations 36

Authors

Weiliang Ma

Guangwei Hu

Debo Hu

Runkun Chen

Tian Sun

Xinliang Zhang

Qing Dai

Ying Zeng

Andrea Alu

Cheng-Wei Qiu

Peining Li

Affiliations

Soon will be listed here.

Abstract

Polaritons in anisotropic materials result in exotic optical features, which can provide opportunities to control light at the nanoscale. So far these polaritons have been limited to two classes: bulk polaritons, which propagate inside a material, and surface polaritons, which decay exponentially away from an interface. Here we report a near-field observation of ghost phonon polaritons, which propagate with in-plane hyperbolic dispersion on the surface of a polar uniaxial crystal and, at the same time, exhibit oblique wavefronts in the bulk. Ghost polaritons are an atypical non-uniform surface wave solution of Maxwell's equations, arising at the surface of uniaxial materials in which the optic axis is slanted with respect to the interface. They exhibit an unusual bi-state nature, being both propagating (phase-progressing) and evanescent (decaying) within the crystal bulk, in contrast to conventional surface waves that are purely evanescent away from the interface. Our real-space near-field imaging experiments reveal long-distance (over 20 micrometres), ray-like propagation of deeply subwavelength ghost polaritons across the surface, verifying long-range, directional and diffraction-less polariton propagation. At the same time, we show that control of the out-of-plane angle of the optic axis enables hyperbolic-to-elliptic topological transitions at fixed frequency, providing a route to tailor the band diagram topology of surface polariton waves. Our results demonstrate a polaritonic wave phenomenon with unique opportunities to tailor nanoscale light in natural anisotropic crystals.

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