Conical Dielectric Lens Loaded Frequency-Diverse Bunching Meta Material Aperture

A conical dielectric lens based frequency-diverse bunching meta material aperture (FDBMA) is proposed in this paper. The FDBMA consists of a frequency-diverse transmission meta material aperture (FDTMA) to produce different radiation patterns at different frequencies and a conical dielectric lens (CDL) to bunch the radiation patterns generated by the FDTMA. Firstly, the FDTMA that consists of a frequency-diverse metalens and a circular array is designed. Furthermore, a CDL is designed to bunch the radiation patterns generated by the FDTMA and the dip angle of the CDL is optimized. Finally, the reflection coefficient (i.e., S₁₁), radiation efficiency and correlation coefficient of FDBMA were evaluated. The radiation patterns generated by the FDBMA can be used as a measurement pattern in accordance with coincidence imaging. All of the results are validated through simulation results.

Citation: X. Ren, H. Huang, M. Zhao, N. Zhou, S. Zhu and A. Zhang, "Conical dielectric lens loaded frequency-diverse bunching meta material aperture," 2020 2nd International Conference on Artificial Intelligence and Advanced Manufacture (AIAM), Manchster, United Kingdom, 2020, pp. 239-242.

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