Intelligent Metasurfaces with Continuously Tunable Local Surface Impedance for Multiple Reconfigurable Functions
Date
2019Author
Liu, FuTsilipakos, Odysseas
Pitilakis, Alexandros
Tasolamprou, Anna C.
Mirmoosa, Mohammad Sajjad
Kantartzis, Nikolaos V.
Kwon, Do-Hoon
Georgiou, Julius
Kossifos, Kypros
Antoniades, Marco A.
Kafesaki, Maria
Soukoulis, Costas M.
Tretyakov, Sergei A.
Source
Physical Review AppliedVolume
11Issue
4Google Scholar check
Metadata
Show full item recordAbstract
Electromagnetic metasurfaces can be characterized as intelligent if they are able to perform multiple tunable functions, with the desired response being controlled by a computer influencing the individual electromagnetic properties of each metasurface inclusion. In this paper, we present an example of an intelligent metasurface that operates in the reflection mode in the microwave frequency range. We numerically show that, without changing the main body of the metasurface, we can achieve tunable perfect absorption and tunable anomalous reflection. The tunability features can be implemented using mixed-signal integrated circuits (ICs), which can independently vary both the resistance and reactance, offering complete local control over the complex surface impedance. The ICs are embedded in the unit cells by connecting two metal patches over a thin grounded substrate and the reflection property of the intelligent metasurface can be readily controlled by a computer. Our intelligent metasurface can have a significant influence on future space-time modulated metasurfaces and a multitude of applications, such as beam steering, energy harvesting, and communications.