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Plasmon‐Induced Optical Magnetism in an Ultrathin Metal Nanosphere‐Based Dimer‐on‐Film Nanocavity

Yongjun Meng, Qiang Zhang, Dangyuan Lei, Yonglong Li, Siqi Li, Zhenzhen Liu, Wei Xie, Chi Wah Leung

2020Laser & Photonics Review28 citationsDOIOpen Access PDF

Abstract

Abstract Recently, plasmon‐induced optical magnetism has attracted much research interest in nanophotonics and plasmonics due to intriguing applications in optical metamaterials, and ultrasensitive plasmonic nano‐metrology, among many others. Here, a strong in‐plane magnetic dipolar resonance in an ultrathin plasmonic nanocavity consisting of a silica‐coated gold nanosphere dimer coupled to a gold thin film is observed experimentally and explained theoretically. Multipolar expansion and numerical simulation disclose that such magnetic resonance is induced by a displacement current loop circulating around a nanometer thick triangular region in the cavity. The spectral response and radiation polarization of the magnetic mode are “visualized” by using a polarization‐resolved dark‐field imaging system at the single‐particle level. The resonance responses of this magnetic mode highly depends on cavity gap thickness, nanosphere dimension, and the incident angle, allowing straightforward resonance tuning from the visible to near‐infrared region and thus opening up a new avenue for magnetic resonance‐enhanced nonlinear optics and chiral optics.

Topics & Concepts

PlasmonNanophotonicsMagnetismMaterials scienceMetamaterialPolarization (electrochemistry)OpticsOptoelectronicsNanosphere lithographySurface plasmon resonanceFano resonanceNanotechnologyNanoparticlePhysicsCondensed matter physicsChemistryMedicinePhysical chemistryFabricationAlternative medicinePathologyPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsGold and Silver Nanoparticles Synthesis and Applications
Plasmon‐Induced Optical Magnetism in an Ultrathin Metal Nanosphere‐Based Dimer‐on‐Film Nanocavity | Litcius