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Inch-Scale Ball-in-Bowl Plasmonic Nanostructure Arrays for Polarization-Independent Second-Harmonic Generation

Xianxin Wu, Wenyu Jiang, Xiaofeng Wang, Liyun Zhao, Jia Shi, Shuai Zhang, Xinyu Sui, Zhexue Chen, Wenna Du, Jianwei Shi, Qian Liu, Qing Zhang, Yong Zhang, Xinfeng Liu

2020ACS Nano29 citationsDOI

Abstract

Second-harmonic generation (SHG) in plasmonic nanostructures has been investigated for decades due to their wide applications in photonic circuit, quantum optics and biosensing. Development of large-scale, uniform, and efficient plasmonic nanostructure system with tunable modes is desirable for their feasible utilizations. Herein, we design an efficient inch-scale SHG source by a solution-processed method instead of traditional high-cost processes. By assembling the gold nanoparticles with the porous anodic alumina templates, multiresonance in both visible and near-infrared regions can be achieved in hexagonal plasmonic nanostructure arrays, which provide strong electric field enhancement at the gap region. Polarization-independence SHG radiation has been realized owing to the in-plane isotropic characteristic of assembled unit. The tilt-angle dependent and angle-resolved measurement showed that wide-angle nonlinear response is achieved in our device because of the gap geometry of ball-in-bowl nanostructure with nonlinear emission electric dipoles distributed on the concave surface, which makes it competitive in practical applications. Our progress not only makes it possible to produce uniform inch-scale nonlinear arrays through low-cost solution process; and also advances the understanding of the SHG radiation in plasmonic nanostructures.

Topics & Concepts

PlasmonMaterials scienceNanostructureSecond-harmonic generationOptoelectronicsNanotechnologyNonlinear opticsOpticsPolarization (electrochemistry)LaserPhysicsChemistryPhysical chemistryPlasmonic and Surface Plasmon ResearchOptical Coatings and GratingsThermal Radiation and Cooling Technologies
Inch-Scale Ball-in-Bowl Plasmonic Nanostructure Arrays for Polarization-Independent Second-Harmonic Generation | Litcius