Metamaterials With Analogous Electromagnetically Induced Transparency and Related Sensor Designs - A Review

Electromagnetically induced transparency (EIT) originates from quantum physics, where a narrow transparent peak appears in the opaque band due to the destructive interference between quantum states of atoms and molecules. Similar phenomena can be realized based on strong-coupling resonators with a s...

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Veröffentlicht in:	IEEE sensors journal 2023-04, Vol.23 (7), p.1-1
Hauptverfasser:	Xu, Zhixia, Wang, Yi, Liu, Siyuan, Ma, Jitong, Fang, Shaojun, Wu, Haotian
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Sprache:	eng
Schlagworte:	Coupling (molecular) Electromagnetically induced transparency Mathematical analysis Metamaterials Quantum theory resonators Sensors spectrum strong coupling
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description	Electromagnetically induced transparency (EIT) originates from quantum physics, where a narrow transparent peak appears in the opaque band due to the destructive interference between quantum states of atoms and molecules. Similar phenomena can be realized based on strong-coupling resonators with a similar spectrum of transmission peaks and abrupt dispersion variations. These classical systems, ranging from elastic to optical, are named analogs of EIT. The sharp resonant peaks with high-quality factors in the spectrum exhibit powerful potentials in sensors with ultra-high sensitivity. In order to better understand the development history of EIT-like metamaterials and their specific applications in the field of sensors, this paper makes a brief review of the EIT-like phenomenon in metamaterials. Firstly, we conduct the universal mathematical formulation based on the coupling oscillator model. Then, we classify specific metamaterial designs and practical applications of EIT-like devices in acoustic, electromagnetic, and optical waves, respectively. We also summarize the recent technologies of dynamic modulations of EIT-like metamaterials and discuss future research directions.
doi_str_mv	10.1109/JSEN.2023.3249743
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subjects	Coupling (molecular) Electromagnetically induced transparency Mathematical analysis Metamaterials Quantum theory resonators Sensors spectrum strong coupling
title	Metamaterials With Analogous Electromagnetically Induced Transparency and Related Sensor Designs - A Review
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