Add to ORKGMetamaterial surfaces can be conceptualized by 2-dimensional periodic arrangement of many small flat inclusions on an otherwise homogeneous host surface. Electromagnetic properties of such metamaterial plates, which can indeed be regarded as frequency-selective surfaces, are influenced by the shape and geometry of these inclusions. When a metamaterial surface is closely placed above a perfectly conducting plate, at certain band of frequency, this structure may possess high surface impedance at its top surface, and thus providing a high-impedance ground plane (HIGP). The center frequency and bandwidth over which such high-impedance electromagnetic surface is achieved depend on inclusion shapes and compositions, among other parameters. By pla...
A new approach for obtaining metasurfaces realized by using frequency selective surfaces with reduce...
A simple design of metamaterial absorber (MA) was proposed based on a periodic array of metal patch...
endorsement of any of the University of Pennsylvania's products or services. Internal or person...
Metamaterial surfaces can be conceptualized by 2-dimensional periodic arrangement of many small flat...
Different electrically-thin absorbing designs based on High-Impedance Surfaces (HIS) are presented a...
Different electrically-thin absorbing designs based on High-Impedance Surfaces (HIS) are presented ...
Frequency Selective Surfaces (FSSs) are bidimensional arrays of particles arranged in a periodic ma...
Perfect absorbing metamaterials comprising a metallic frequency selective surface printed on a thin ...
Nowadays the demand for more broadband and multi-band operability is increasing in different electro...
We theoretically and experimentally studied a transmitting-absorbing material that had transmission ...
Nonlinear active metamaterial surfaces are constructed of planar periodic engineered structures in t...
We suggest that ultrathin broadband metamaterial is a perfect absorber in the microwave regime by ut...
Metasurfaces are sub-wavelength scale (lambda<1/4), two dimensional (2D) periodic structures bein...
We studied structures that describe the perfect-absorber effect by using different mechanisms. First...
Metamaterials are materials artificially created by human to have characteristics that do not exist ...
A new approach for obtaining metasurfaces realized by using frequency selective surfaces with reduce...
A simple design of metamaterial absorber (MA) was proposed based on a periodic array of metal patch...
endorsement of any of the University of Pennsylvania's products or services. Internal or person...
Metamaterial surfaces can be conceptualized by 2-dimensional periodic arrangement of many small flat...
Different electrically-thin absorbing designs based on High-Impedance Surfaces (HIS) are presented a...
Different electrically-thin absorbing designs based on High-Impedance Surfaces (HIS) are presented ...
Frequency Selective Surfaces (FSSs) are bidimensional arrays of particles arranged in a periodic ma...
Perfect absorbing metamaterials comprising a metallic frequency selective surface printed on a thin ...
Nowadays the demand for more broadband and multi-band operability is increasing in different electro...
We theoretically and experimentally studied a transmitting-absorbing material that had transmission ...
Nonlinear active metamaterial surfaces are constructed of planar periodic engineered structures in t...
We suggest that ultrathin broadband metamaterial is a perfect absorber in the microwave regime by ut...
Metasurfaces are sub-wavelength scale (lambda<1/4), two dimensional (2D) periodic structures bein...
We studied structures that describe the perfect-absorber effect by using different mechanisms. First...
Metamaterials are materials artificially created by human to have characteristics that do not exist ...
A new approach for obtaining metasurfaces realized by using frequency selective surfaces with reduce...
A simple design of metamaterial absorber (MA) was proposed based on a periodic array of metal patch...
endorsement of any of the University of Pennsylvania's products or services. Internal or person...