@misc{10481/101606,
year = {2022},
month = {8},
url = {https://hdl.handle.net/10481/101606},
abstract = {The exigent demands imposed by future generations of high-speed cellular and satellite communications claim for low-loss and wideband phase shifters at mm-Wave frequencies. Pixelated metasurfaces provide large design versatility and constitute an attractive solution for wave manipulation. However, their design often implies the simultaneous tuning of a large number of geometrical parameters. In this article, multi-objective optimization is used together with full-wave simulation to design a low-loss 90° phase shifter operating on the 57–63 GHz frequency band. Among the set of optimal individuals provided by the algorithm, a final solution has been selected according to the electromagnetic response of the device, achieving less than 0.06 dB of reflection loss and a constant phase shift with an absolute error less than 2° over the whole frequency band.},
keywords = {Image quality},
keywords = {Phase shifters},
keywords = {Metasurfaces},
keywords = {Metasurfaces},
keywords = {Electromagnetics},
keywords = {Optimization},
keywords = {Wideband},
title = {Optimization-driven design of a 90° metasurface phase shifter at 60 GHz},
doi = {10.1109/BlackSeaCom54372.2022.9858206},
author = {Vassos, Evangelos and Zaharis, Zaharias D. and Lazaridis, Pavlos and Yioultsis, Traianos V and Kantartzis, Nikolaos and Zapata Cano, Pablo H.},
}