用于增强非线性可调性和滞后行为的法诺共振混合超材料

Fano-Resonant Hybrid Metamaterial for Enhanced Nonlinear Tunability and Hysteresis Behavior.

作者信息

Fan Yuancheng, He Xuan, Zhang Fuli, Cai Weiqi, Li Chang, Fu Quanhong, Sydorchuk Nataliia V, Prosvirnin Sergey L

机构信息

Key Laboratory of Light Field Manipulation and Information Acquisition, Ministry of Industry and Information Technology and School of Physical Science and Technology, Northwestern Polytechnical University, Xi'an 710129, China.

Research & Development Institute of Northwestern Polytechnical University in Shenzhen, Shenzhen 518057, China.

出版信息

Research (Wash D C). 2021 Aug 13;2021:9754083. doi: 10.34133/2021/9754083. eCollection 2021.

DOI:10.34133/2021/9754083

PMID:34485916

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8380421/

Abstract

Artificial resonant metamaterial with subwavelength localized filed is promising for advanced nonlinear photonic applications. In this article, we demonstrate enhanced nonlinear frequency-agile response and hysteresis tunability in a Fano-resonant hybrid metamaterial. A ceramic cuboid is electromagnetically coupled with metal cut-wire structure to excite the high-Q Fano-resonant mode in the dielectric/metal hybrid metamaterial. It is found that the significant nonlinear response of the ceramic cuboid can be employed for realization of tunable metamaterials by exciting its magnetic mode, and the trapped mode with an asymmetric Fano-like resonance is beneficial to achieve notable nonlinear modulation on the scattering spectrum. The nonlinear tunability of both the ceramic structure and the ceramic/metal hybrid metamaterial is promising to extend the operation band of metamaterials, providing possibility in practical applications with enhanced light-matter interactions.

摘要

具有亚波长局域场的人工共振超材料在先进的非线性光子学应用中具有广阔前景。在本文中，我们展示了法诺共振混合超材料中增强的非线性频率捷变响应和滞后可调性。一个陶瓷长方体与金属切割线结构进行电磁耦合，以激发介电/金属混合超材料中的高Q值法诺共振模式。研究发现，陶瓷长方体的显著非线性响应可用于通过激发其磁模式来实现可调谐超材料，具有非对称类法诺共振的俘获模式有利于在散射光谱上实现显著的非线性调制。陶瓷结构以及陶瓷/金属混合超材料的非线性可调性有望扩展超材料的工作频段，为增强光与物质相互作用的实际应用提供可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/72e6/8380421/a0d8f293db29/RESEARCH2021-9754083.001.jpg

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用于增强非线性可调性和滞后行为的法诺共振混合超材料

Fano-Resonant Hybrid Metamaterial for Enhanced Nonlinear Tunability and Hysteresis Behavior.

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