Electronics, Vol. 13, Pages 1648: Design of 2.5 Bit Programmable Metasurface Unit Cell for Electromagnetic Manipulation

Electronics, Vol. 13, Pages 1648: Design of 2.5 Bit Programmable Metasurface Unit Cell for Electromagnetic Manipulation

Electronics doi: 10.3390/electronics13091648

Authors: Yuchen Luan Yuyang Lu Jian Ren Fukun Sun

Programmable metasurfaces are two-dimensional electromagnetic structures characterized by a low profile, conformability, and the ability to flexibly manipulate the amplitude and phase of electromagnetic waves. For high-quality beam scanning with the metasurface, it is essential that the metasurface possesses high-precision phase response quantization characteristics. This paper constructs a reflection-type metasurface unit cell featuring four P-I-N diodes and six operating states. To address the unit cell’s complexity and optimization challenges, we developed an automatic optimization algorithm, derived from the genetic optimization algorithm, for the metasurface unit cell. This algorithm was used to optimize a six-phase reflective 2.5 bit programmable metasurface cell operating at 5 GHz. The unit cell’s prototype was fabricated and measured to verify the design. Additionally, a metasurface comprising 16 × 16 unit cells was designed and simulated. The results highlight the metasurface unit cell’s excellent phase response quantization characteristics, and investigate the impact of quantization accuracy on beam scanning.