Photoluminescence control by hyperbolic metamaterials and metasurfaces: a review
双曲线超材料和超表面的光致发光控制:综述
双曲線メタマテリアルとメタ表面によるフォトルミネッセンス制御:レビュー
쌍곡선 메타물질 및 메타표면에 의한 광발광 제어: 검토
Control de fotoluminiscencia por metamateriales hiperbólicos y metasuperficies: una revisión
Contrôle de la photoluminescence par les métamatériaux hyperboliques et les métasurfaces : un bilan
Управление фотолюминесценцией гиперболическими метаматериалами и метаповерхностями: обзор
Leonid Yu. Beliaev ¹, Osamu Takayama ¹, Pavel N. Melentiev ² ³, Andrei V. Lavrinenko ¹
¹ DTU Fotonik-Department of Photonics Engineering, Technical University of Denmark, Ørsteds Plads 343, DK-2800 Kgs. Lyngby, Denmark
² Institute of Spectroscopy RAS, Moscow 108840, Russia
³ Higher School of Economics, National Research University, Moscow 101000, Russia
Photoluminescence including fluorescence plays a great role in a wide variety of applications from biomedical sensing and imaging to optoelectronics. Therefore, the enhancement and control of photoluminescence has immense impact on both fundamental scientific research and aforementioned applications.
Among various nanophotonic schemes and nanostructures to enhance the photoluminescence, we focus on a certain type of nanostructures, hyperbolic metamaterials (HMMs). HMMs are highly anisotropic metamaterials, which produce intense localized electric fields. Therefore, HMMs naturally boost photoluminescence from dye molecules, quantum dots, nitrogen-vacancy centers in diamonds, perovskites and transition metal dichalcogenides.
We provide an overview of various configurations of HMMs, including metal-dielectric multilayers, trenches, metallic nanowires, and cavity structures fabricated with the use of noble metals, transparent conductive oxides, and refractory metals as plasmonic elements. We also discuss lasing action realized with HMMs.
