Reflective Switchable Polarization Rotator Based on Metasurface With PIN Diodes
Michal Cerveny, Kenneth Lee Ford, A. Tennant
Abstract
A planar metasurface that rotates the polarization of reflected signals by 90° is presented in this article. The surface also permits the relative phase of the rotated, reflected signal to be controlled. The metasurface rotator uses a square printed patch element mounted above a conducting ground plane. The addition of PIN diode controlled vertical interconnect access (VIA) at the corners of each square patch provides the ability to modify the scattering properties of the surface. In particular, the surface can be programed to shift the phase of the rotated waveform by ±90°. The polarization rotator was manufactured, measured, and compared against numerical simulations, and the maximum measured bandwidth was 25% (4.8-6.2 GHz) for co-polarized attenuation of 10 dB. The proposed surface can be adopted for practical applications, such as circularly polarized antennas.