"非对称等离激元共振模型及应用研究:物联网智慧传输与纳米传感特性"
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更新于2024-04-05
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The study presented in the paper "物联网-智慧传输-非对称等离激元纳米结构共振模型及传感特性研究.pdf" focuses on the investigation of asymmetric plasmonic nanostructures and their unique optical phenomena. These nanostructures have the capability to enhance local electromagnetic fields, exhibit plasmonic Fano resonances, and demonstrate anisotropic optical responses.
The research delves into the use of asymmetric core-shell plasmonic nanostructures to study the plasmon hybridization effect. This effect plays a crucial role in enhancing the sensitivity of single molecule sensing substrates and can be utilized in the development of novel nanophotonic devices.
Overall, the study highlights the potential of asymmetric plasmonic nanostructures in advancing the field of nanophotonics and sensing technologies. The insights gained from this research have significant implications for the design and optimization of future optical devices and sensing platforms in the Internet of Things (IoT) and smart transportation systems.
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