Analysis of disk patch antenna with parasitic elements in single and multilayer structures

## Abstract The analysis of stacked patch antenna with two parasitic elements is presented. The antenna shows improved radiation and directivity by 6.57 dB when compared with single layer patch antenna. The bandwidth of the antenna is found to be dependent on various parameters such as h~1~, h~2~,

## Abstract The goal of this work is to further investigate on the use of a truncated planar metallic periodic structure (grounded FSS‐based) to create new resonance frequencies in a patch antenna. The periodic structure is placed inside the microstrip patch antenna (between the metallic ground pla

## Abstract The analysis of half circular disk loaded with symmetrical notches is presented based on circuit concept. The bandwidth is found to depend on the parameters of the notches as well as the width of the central patch. Theoretical results are compared with the simulated results obtained fro

## Abstract A rigorous full‐wave analysis of rectangular microstrip‐patch resonators over ground planes with rectangular apertures is presented. The rectangular patches, as well as the ground planes containing the rectangular apertures, are embedded in a multilayered substrate containing isotropic

AgC 6 F 5 is directly and quantitatively formed from room temperature reactions of AgF and Me 3 SiC 6 F 5 in N-donor solvents, particularly EtCN. Solutions of AgC 6 F 5 prepared by this method exhibit excellent oxidative properties in reactions with a variety of groups 12 to 16 elements giving the c