Guiding of Visible Photons at the ångström Thickness Limit

Overview

Journal Nat Nanotechnol

Specialty Biotechnology

Date 2019 Aug 14

PMID 31406361

Citations 13

Authors

Xingwang Zhang

Chawina De-Eknamkul

Jie Gu

Alexandra L Boehmke

Vinod M Menon

Jacob Khurgin

Ertugrul Cubukcu

Affiliations

Soon will be listed here.

Abstract

Optical waveguides are vital components of data communication system technologies, but their scaling down to the nanoscale has remained challenging despite advances in nano-optics and nanomaterials. Recently, we theoretically predicted that the ultimate limit of visible photon guiding can be achieved in monolayer-thick transition metal dichalcogenides. Here, we present an experimental demonstration of light guiding in an atomically thick tungsten disulfide membrane patterned as a photonic crystal structure. In this scheme, two-dimensional tungsten disulfide excitonic photoluminescence couples into quasi-guided photonic crystal modes known as resonant-type Wood's anomalies. These modes propagate via total internal reflection with only a small portion of the light diffracted to the far field. Such light guiding at the ultimate limit provides more possibilities to miniaturize optoelectronic devices and to test fundamental physical concepts.

Citing Articles

Guiding light with surface exciton-polaritons in atomically thin superlattices.

Elrafei S, Raziman T, de Vega S, de Abajo F, Curto A Nanophotonics. 2024; 13(17):3101-3111.

PMID: 39634938 PMC: 11501836. DOI: 10.1515/nanoph-2024-0075.

Ultra-thin grating coupler for guided exciton-polaritons in WS multilayers.

Cho H, Shin D, Sung J, Gong S Nanophotonics. 2024; 12(13):2563-2571.

PMID: 39633746 PMC: 11501107. DOI: 10.1515/nanoph-2022-0791.

Transport and Spatial Separation of Valley Coherence via Few Layer WS Exciton-Polaritons.

De-Eknamkul C, Huang W, Zhang X, Ren Y, Cubukcu E ACS Photonics. 2024; 11(3):1078-1084.

PMID: 38576862 PMC: 10993736. DOI: 10.1021/acsphotonics.3c01484.

Planar hyperbolic polaritons in 2D van der Waals materials.

Wang H, Kumar A, Dai S, Lin X, Jacob Z, Oh S Nat Commun. 2024; 15(1):69.

PMID: 38167681 PMC: 10761702. DOI: 10.1038/s41467-023-43992-8.

A composite electrodynamic mechanism to reconcile spatiotemporally resolved exciton transport in quantum dot superlattices.

Yuan R, Roberts T, Brinn R, Choi A, Park H, Yan C Sci Adv. 2023; 9(42):eadh2410.

PMID: 37862422 PMC: 10588942. DOI: 10.1126/sciadv.adh2410.