Electromagnetic induced transparency from interlayer coupling of asymmetric split ring resonators

Peng Zhan Li; Jin Yu Chen; Zai Lin Wang; Pujing Zhang; Yuwang Deng; Qingli Zhou; Cunlin Zhang

doi:10.1117/12.2642160

16 December 2022 Electromagnetic induced transparency from interlayer coupling of asymmetric split ring resonators

Peng Zhan Li, Jin Yu Chen, Zai Lin Wang, Pujing Zhang, Yuwang Deng, Qingli Zhou, Cunlin Zhang

Proceedings Volume 12324, Infrared, Millimeter-Wave, and Terahertz Technologies IX; 123240T (2022) https://doi.org/10.1117/12.2642160
Event: SPIE/COS Photonics Asia, 2022, Online Only

Conference Poster

Abstract

Terahertz metamaterials with electromagnetically induced transparency (EIT) have attracted extensive attention recently due to the broad application prospects in communication, optical storage, slow light effect, and biosensing. Here, we have studied the EIT effect caused by the interlayer coupling of two asymmetric split ring resonators with four gaps. The upper and the lower layers spaced by the intermediate Si have the same metastructures with the rotated angle of 90° to each other. By varying the length of the metallic arm, we find that the EIT effect becomes increasingly apparent as the asymmetry coefficient decrease. The simulation results indicate that with the increase of the thickness of Si layer, the EIT phenomenon will first emerge, gradually become the strongest with the thickness of 5μm, and finally tend to be weakened after further increasing the Si thickness. Meanwhile, the frequency of the transparency peak exhibits redshift with the Si thickness. It is also found that the EIT effect can be further optimized by adjusting the microstructure width of the split ring resonators. When the asymmetry coefficient and the thickness of the intermediate layer is determined, the EIT effect becomes most obvious with the width of 3 μm, and will gradually weaken with the increase of metallic width. The transparency peak frequency presents blue shift simultaneously. Our designed metastructure could provide the optional approach to modify the EIT behaviors and play an important role in the sensors and modulators.

Citation Download Citation

Peng Zhan Li, Jin Yu Chen, Zai Lin Wang, Pujing Zhang, Yuwang Deng, Qingli Zhou, and Cunlin Zhang "Electromagnetic induced transparency from interlayer coupling of asymmetric split ring resonators", Proc. SPIE 12324, Infrared, Millimeter-Wave, and Terahertz Technologies IX, 123240T (16 December 2022); https://doi.org/10.1117/12.2642160

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