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Coupled Toroidal Dipole Modes in Silicon Nanodisk Metasurface: Polarization Independent Narrow Band Absorption and Directional Emission

Hiroaki Hasebe, Hiroshi Sugimoto, Tatsuki Hinamoto, Minoru Fujii

2020Advanced Optical Materials49 citationsDOI

Abstract

Abstract Besides the fundamental Mie resonance modes of high‐index dielectric nanostructures, an extended multipole family, i.e., toroidal multipoles, provide great opportunities for engineering a new class of nanophotonic devices. Here, it is demonstrated theoretically and experimentally that a hexagonal array of circular silicon (Si) nanodisks (NDs) supports intra‐ and inter‐ND toroidal dipole (TD) modes. The key concept is the alignment of Si NDs near the anapole state condition for constructive interaction of the TD modes between neighboring NDs. Numerical simulation reveals that strong field confinement by the coupled TD modes enhances the absorption 120‐fold at the resonance wavelength compared to that of a flat Si film with the same thickness. In this study, macroscopic scale hexagonal Si ND arrays are fabricated using a colloidal lithography, and spectrally selective absorption enhancement due to the TD modes is demonstrated. Furthermore, it is demonstrated that a dipolar emitter can also excite TD modes, which modify the spectral shape and the directionality of the emission.

Topics & Concepts

Multipole expansionMaterials scienceDipoleNanophotonicsDielectricToroidOpticsSiliconPolarization (electrochemistry)Absorption (acoustics)Resonance (particle physics)OptoelectronicsMolecular physicsPhysicsAtomic physicsPlasmaPhysical chemistryChemistryQuantum mechanicsPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface Technologies
Coupled Toroidal Dipole Modes in Silicon Nanodisk Metasurface: Polarization Independent Narrow Band Absorption and Directional Emission | Litcius