Frequency Selective Surface Using Nested Split Ring Slot Elements as a Lens With Mechanically Reconfigurable Beam Steering Capability

摘要

The design is described of a double layer frequency selective surface which can produce a differential phase shift of 180 $^{circ}$ as the wave propagates through it at normal incidence. The hand of an applied circularly polarized signal is reversed due to the 180$^{circ}$ phase shift, and it is demonstrated that the exit circularly polarized output signal can be phase advanced or phase retarded by 180 $^{circ}$ upon rotation of the elements comprising the structure. This feature allows the surface to act as a spatial phase shifter. In this paper the beam steering capabilities of a 10 $times$ 10 array of such elements are demonstrated. Here the individual elements comprising the array are rotated relative to each other in order to generate a progressive phase shift. At normal incidence the 3 dB Axial Ratio Bandwidth for LHCP to RHCP conversion is 5.3% and the insertion loss was found to be $-$2.3 dB, with minimum axial ratio of 0.05 dB. This array is shown to be able to steer a beam from $-40^{circ}$ to $+40^{circ}$ while holding axial ratio at the pointing angle to below 4 dB. The measured radiation patterns match the theoretical calculation and full-wave simulation results.