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Strong light–matter interactions of exciton in bulk WS<sub>2</sub> and a toroidal dipole resonance

Shaojun You, Ying Zhang, Menghui Fan, Shengyun Luo, Chaobiao Zhou

2023Optics Letters26 citationsDOI

Abstract

Exciton-polaritonic states are generated by strong interactions between photons and excitons in nanocavities. Bulk transition metal dichalcogenides (TMDCs) host excitons with a large binding energy at room temperature, and thus are regarded as an ideal platform for realizing exciton-polaritons. In this work, we investigate the strong coupling properties between high- Q toroidal dipole (TD) resonance and bulk WS 2 excitons in a hybrid metasurface, consisting of Si 3 N 4 nanodisk arrays with embedded WS 2 . Multipole decomposition and near-field distribution confirm that Si 3 N 4 nanodisk arrays support strong TD resonance. The TD resonance wavelength is easily tuned to overlap with the bulk WS 2 exciton wavelength, and strong coupling is observed when the bulk WS 2 is integrated with the hollow nanodisk and the oscillator strength of the WS 2 material is adjusted to be greater than 0.6. The Rabi splitting of the hybrid device is up to 65 meV. In addition, strong coupling is confirmed by the anticrossing of fluorescence enhancement in the hybrid Si 3 N 4 –WS 2 metastructure. Our findings are expected to be of importance for both fundamental research in TMDC-based light–matter interactions and practical applications in the design of high-performance exciton-polariton devices.

Topics & Concepts

ExcitonPolaritonResonance (particle physics)DipoleMultipole expansionOscillator strengthMaterials scienceCondensed matter physicsCoupling (piping)PhysicsOptoelectronicsMolecular physicsAtomic physicsSpectral lineQuantum mechanicsMetallurgyAstronomyStrong Light-Matter InteractionsPerovskite Materials and ApplicationsPlasmonic and Surface Plasmon Research
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