Monolithic waveguide filters using printed photonic-bandgap materials

## Abstract In this paper, an R‐band hybrid amplifier with a coplanar‐waveguide (CPW) and photonic‐bandgap (PBG) structure is designed and fabricated. We use PBG and CPW simultaneously in the amplifier to improve power‐added efficiency (PAE) and intermodulation distortion (IMD) in the R‐band. In th

## Abstract A new doubly tapered photonic bandgap (DT‐PBG) technique in both planar and cylindrical coplanar waveguide (CCPW) structures is proposed and analyzed. The DT‐PBG structure of a coplanar waveguide (CPW) bandstop filter not only can reduce the passband ripple but can also increase the sto

Figure 8 Measured S thin line and S thick line parameters 11 21 for the continuous triangular PBG microstrip structure with nine periods in the ground plane, a period a of 23.9 mm, and tra s 0.25 of these circuits was shown to be related to the Fourier transform of the perturbation geometry. These

## Abstract In this Letter a new analysis of an optical filter using a metallic photonic bandgap material on the microscopic scale is reported. The proposed filter is capable of working over a wide range of the electromagnetic spectrum and the idea is based on the famous Kronig–Penny model in the s