Z Shen, C Wang, N Lu - Materials Research Express, 2022 - iopscience.iop.org
We investigate an all-dielectric metasurface to mimic the electromagnetically induced transparency-like phenomenon in the microwave. The unit cell is comprised of two hollow …
This work proposes and theoretically demonstrates a double electromagnetic induced transparency resonance generated by a novel dielectric metasurface consisting of a periodic …
W Liu, H Li, C Li, J Ding, Y Luo, W Wu, M Guo… - Optics …, 2021 - opg.optica.org
The analogue of electromagnetically induced transparency (EIT-like) and electromagnetically induced reflectance (EIR-like) effects have been intensively studied and …
This work proposes and theoretically demonstrates a double electromagnetic induced transparency resonance generated by a novel dielectric metasurface consisting of a periodic …
S Hu, D Liu, H Yang - Journal of Physics D: Applied Physics, 2019 - iopscience.iop.org
Based on a bright–dark–bright coupling model, a classical analog of an integrated electromagnetically induced transparency (EIT) metasurface at a microwave frequency band …
TA Ndukaife, S Yang - Optics Express, 2023 - opg.optica.org
The control of resonant metasurface for electromagnetically induced transparency (EIT) offers unprecedented opportunities to tailor lightwave coupling at the nanoscale leading to …
S Nooshnab, S Golmohammadi… - IEEE Transactions on …, 2022 - ieeexplore.ieee.org
Artificially engineered all-dielectric configurations have received growing attention in the past decades owing to their unique properties in facilitating low-loss and efficient …
L Zhu, L Dong, J Guo, FY Meng, XJ He… - Journal of Physics D …, 2018 - iopscience.iop.org
A windmill-like metasurface featuring a polarization-independent electromagnetically induced transparency (EIT) at microwave frequencies is numerically and experimentally …
The active control of electromagnetic response in metamaterial and mutual coupling between resonant building blocks is of fundamental importance in realizing high-quality …