Graphene-bridged topological network metamaterials with perfect modulation applied to dynamic cloaking and meta-sensing

Graphene-bridged topological network metamaterials with perfect modulation applied to dynamic cloaking and meta-sensing

Perfect state transfer of the bus topological system enables the sharing of information or excitation between nodes. Herein we report groundbreaking research on the transfer of the graphene-bridged bus topological network structure to an electromagnetic metamaterial setting, named “bus topological n...

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Veröffentlicht in:Optics express 2020-07, Vol.28 (15), p.22064-22075
Hauptverfasser: Yan, Xin, Zhang, Zhang, Gao, Ju, Liang, Lanju, Yang, Maosheng, Guo, Xinyuan, Li, Jie, Li, Yuanpi, Wei, Dequan, Wang, Meng, Wang, Xujuan, Zong, MingJi, Ye, Yunxia, Song, Xiaoxian, Zhang, Haiting, Yao, Jianquan
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container_end_page 22075
container_issue 15
container_start_page 22064
container_title Optics express
container_volume 28
creator Yan, Xin
Zhang, Zhang
Gao, Ju
Liang, Lanju
Yang, Maosheng
Guo, Xinyuan
Li, Jie
Li, Yuanpi
Wei, Dequan
Wang, Meng
Wang, Xujuan
Zong, MingJi
Ye, Yunxia
Song, Xiaoxian
Zhang, Haiting
Yao, Jianquan
description Perfect state transfer of the bus topological system enables the sharing of information or excitation between nodes. Herein we report groundbreaking research on the transfer of the graphene-bridged bus topological network structure to an electromagnetic metamaterial setting, named “bus topological network metamaterials (TNMMs).” Correspondingly, the electromagnetic response imprints onto the topological excitation. We find that the bus-TNMMs display a perfect modulation of the terahertz response. The blue-shift of resonance frequency could increase to as large as 1075 GHz. The modulation sensitivity of the bus-TNMMs reaches 1027 GHz/Fermi level unit (FLU). Meanwhile, with the enhancement of modulation, the line shape of the reflection keeps underformed. Parabola, ExpDec1, and Asymptotic models are used to estimate the modulation of the resonance frequency. Besides, the bus-TNMMs system provides a fascinating platform for dynamic cloaking. By governing the Fermi level of graphene, the bus-TNMMs can decide whether it is cloaking or not in a bandwidth of 500 GHz. Also, the bus-TNMMs exhibit the immense potential for dynamically detecting the vibrational fingerprinting of an analyte. These results give a far-reaching outlook for steering dynamically the terahertz response with the bus-TNMMs. Therefore, we believe that the discovery of bus-TNMMs will revolutionize our understanding of the modulation of the electromagnetic response.
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title Graphene-bridged topological network metamaterials with perfect modulation applied to dynamic cloaking and meta-sensing
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