Circular Dichroism Control of Tungsten Diselenide (WSe2) Atomic Layers with Plasmonic Metamolecules

Hsiang Ting Lin, Chiao Yun Chang, Pi Ju Cheng, Ming-yang Li, Chia Chin Cheng, Shu Wei Chang, Lain-Jong Li, Chih Wei Chu, Pei Kuen Wei, Min Hsiung Shih

Research output: Contribution to journalArticlepeer-review

27 Scopus citations

Abstract

Controlling circularly polarized states of light is critical to the development of functional devices for key and emerging applications such as display technology and quantum communication, and the compact circular polarization-tunable photon source is one critical element to realize the applications in the chip-scale integrated system. The atomic layers of transition metal dichalcogenide (TMDC) exhibit intrinsic circularly polarized emissions and are potential chiroptical materials for ultrathin circularly polarized photon sources. In this work, we demonstrated circularly polarized photon sources of TMDC with device thicknesses approximately 50 nm. Circularly polarized photoluminescence from atomic layers of tungsten diselenide (WSe) was precisely controlled with chiral meta-molecules, and the optical chirality of WSe was enhanced more than 4 times by integrating with the meta-molecules. Both the enhanced and reversed circular dichroisms had been achieved. Through integrations of the novel gain material and plasmonic structure which are both low dimensional, a compact device capable of efficiently manipulating emissions of circularly polarized photon was realized. These ultrathin devices are suitable for important applications such as the optical information technology and chip-scale bio-sensing.
Original languageEnglish (US)
Pages (from-to)15996-16004
Number of pages9
JournalACS Applied Materials & Interfaces
Volume10
Issue number18
DOIs
StatePublished - Apr 16 2018

Bibliographical note

KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: The authors would like to thank the Center for NanoScience and Technology in National Chiao Tung University (NCTU) for the fabrication facilities. This work was supported by the Innovative Materials and Analysis Technology Exploration Program (IMATE) of Academia Sinica and the Ministry of Science and Technology in Taiwan under the contract number MOST 105-2112-M-001-011-MY3.

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