3D-printed millimetre-wave antennas with spray-coated metalization

Alkaraki, Shaker; Kelly, James; Yue Gao

doi:10.1049/pbte093e_ch4

All Outputs (2)

Techniques for Designing High Gain and Two‐Dimensional Beam Scanning Antennas for 5 G (2022)
Book Chapter
Mittra, R., Nasri, A., Arya, R. K., Chaudhary, P., Ketty, J. R., ALkaraki, S., & Borja, A. L. (2022). Techniques for Designing High Gain and Two‐Dimensional Beam Scanning Antennas for 5 G. In Y. Jay Guo, & R. W. Ziolkowski (Eds.), Antenna and Array Technologies for Future Wireless Ecosystems (43-82). Wiley-IEEE Press. https://doi.org/10.1002/9781119813910.ch2

This chapter presents a number of novel concepts for designing antenna arrays, which achieve high gain levels together with wide-angle scan capability. It begins with the Luneburg lens antenna, which supports beam scanning over a very wide angular ra... Read More about Techniques for Designing High Gain and Two‐Dimensional Beam Scanning Antennas for 5 G.

3D-printed millimetre-wave antennas with spray-coated metalization (2020)
Book Chapter
Alkaraki, S., Kelly, J., & Yue Gao. (2020). 3D-printed millimetre-wave antennas with spray-coated metalization. In Q. H. Abbasi, S. Fizzah Jilani, A. Alomainy, & M. Ali Imran (Eds.), Antennas and Propagation for 5G and Beyond (67-99). Institution of Engineering and Technology (IET). https://doi.org/10.1049/pbte093e_ch4

This chapter is concerned with corrugated plate antennas. The corrugated plate antennas, presented here, consist of a resonant slot formed within a metallic plate. The resonant slot is surrounded by a rectangular cavity and corrugations. Subwavelengt... Read More about 3D-printed millimetre-wave antennas with spray-coated metalization.