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Graphene-tuned EIT-like effect in photonic multilayers for actively controlled light absorption of topological insulators

Hua Lü, Yangwu Li, Zengji Yue, Dong Mao, Jianlin Zhao

2020Optics Express19 citationsDOIOpen Access PDF

Abstract

As newly emerging nanomaterials, topological insulators with unique conducting surface states that are protected by time-reversal symmetry present excellent prospects in electronics and photonics. The active control of light absorption in topological insulators are essential for the achievement of novel optoelectronic devices. Herein, we investigate the controllable light absorption of topological insulators in Tamm plasmon multilayer systems composed of a Bi 1.5 Sb 0.5 Te 1.8 Se 1.2 (BSTS) film and a dielectric Bragg mirror with a graphene-involved defect layer. The results show that an ultranarrow electromagnetically induced transparency (EIT)-like window can be generated in the broad absorption spectrum. Based on the EIT-like effect, the Tamm plasmon enhanced light absorption of topological insulators can be dynamically tuned by adjusting the gate voltage on graphene in the defect layer. These results will pave a new avenue for the realization of topological insulator-based active optoelectronic functionalities, for instance light modulation and switching.

Topics & Concepts

Topological insulatorPhotonicsElectromagnetically induced transparencyGrapheneMaterials scienceOptoelectronicsPlasmonDielectricAbsorption (acoustics)Topology (electrical circuits)OpticsPhysicsNanotechnologyCondensed matter physicsCombinatoricsMathematicsTopological Materials and PhenomenaGraphene research and applicationsPhotonic Crystals and Applications
Graphene-tuned EIT-like effect in photonic multilayers for actively controlled light absorption of topological insulators | Litcius