Litcius/Paper detail

Van der Waals Phonon Polariton Microstructures for Configurable Infrared Electromagnetic Field Localizations

Wuchao Huang, Fengsheng Sun, Zebo Zheng, Thomas G. Folland, Xuexian Chen, Huizhen Liao, Ningsheng Xu, Joshua D. Caldwell, Huanjun Chen, Shaozhi Deng

2021Advanced Science30 citationsDOIOpen Access PDF

Abstract

Abstract Polar van der Waals (vdW) crystals that support phonon polaritons have recently attracted much attention because they can confine infrared and terahertz (THz) light to deeply subwavelength dimensions, allowing for the guiding and manipulation of light at the nanoscale. The practical applications of these crystals in devices rely strongly on deterministic engineering of their spatially localized electromagnetic field distributions, which has remained challenging. The polariton interference can be enhanced and tailored by patterning the vdW crystal α ‐MoO 3 into microstructures that support highly in‐plane anisotropic phonon polaritons. The orientation of the polaritonic in‐plane isofrequency curve relative to the microstructure edges is a critical parameter governing the polariton interference, rendering the configuration of infrared electromagnetic field localizations by enabling the tuning of the microstructure size and shape and the excitation frequency. Thus, the study presents an effective rationale for engineering infrared light flow in planar photonic devices.

Topics & Concepts

PolaritonTerahertz radiationvan der Waals forceInfraredPhononMaterials scienceMetamaterialCondensed matter physicsOptoelectronicsAnisotropyOpticsPhysicsQuantum mechanicsMoleculeThermal Radiation and Cooling TechnologiesPlasmonic and Surface Plasmon ResearchStrong Light-Matter Interactions