A reflective-type, quasi-optical metasurface filter
Abstract
We introduce a new technique for designing quasi-optical, reflective-type spatial filters. The proposed filter is a reflective metasurface with a one dimensional, frequency-dependent phase gradient along the aperture. By careful design of each unit cell of the metasurface, the phase shift gradient provided by the adjacent unit cells can be engineered to steer the beam towards a desired, anomalous reflection direction over the passband region of the filter. Outside of that range, the phase shift gradient required to produce the anomalous reflection is not present and hence, the wave is reflected towards the specular reflection direction. This way, the metasurface acts as a reflective filter in a quasi-optical system where the detector is placed along the direction of anomalous reflection. The spectral selectivity of this filter is determined by the frequency dispersion of the metasurface's phase response. Based on this principle, a prototype of the proposed metasurface filter, which operates at 10 GHz and has a bandwidth of 3%, is designed. The device is modeled using a combination of theoretical analysis using the phased-array theory and full-wave electromagnetic simulations. A prototype of this device is also fabricated and characterized using a free-space measurement system. Experimental results agree well with the simulations.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Aug 09, 2017
- Source ID
- 10.1063/1.4997732
Entities
People
- Boyu Sima
- Nader Behdad
- Seyed Mohamad Amin Momeni Hasan Abadi
Organizations
- China Scholarship Council
- Nanjing University
- Office of Naval Research
- University of Wisconsin–Madison