Meshed microstrip patch antennas with low RCS

A high-permitti¨ity ceramic substrate was used to reduce the microstrip antenna dimension on patch size as compared with a con¨entional low-permitti¨ity substrate. A lossy conducti¨e patch was studied for broadening the bandwidth. Here, experiments on single-feed ( ) circularly polarized CP microstr

## Abstract A beamwidth broadening technique for a microstrip patch antenna is presented here. The antenna consists of a patch radiator with two phase‐reversed auxiliary radiators. This technique allows the beamwidth of a microstrip antenna with a large aspect ratio to be broadened at the expense o

A new antenna structure comprising of multiple radiating microstrip patches, representing a figure of digit eight, proximity fed by a microstrip line is proposed. On a double-layered substrate of FR4, this antenna achieves multiband functionality in the range of 3.81-12.42 GHz, which covers IEEE 802

9. P. Blau and I. Smilanski, Simultaneous time-averaged measurements of gas temperature and electron density in a copper-vapor laser using hydrogen emission spectroscopy, IEEE J Quantum Ž .

## Abstract A wideband microstrip patch antenna with tilted L‐probe is proposed and studied. Given a tilted L‐shaped probe and substrate height of about 16.8% of the wavelength, a bandwidth of 37.1% is obtained in the design, and the in‐band __S__~11~ parameter is improved. The radiation pattern is

## Abstract In this paper, a microstrip patch antenna array on ground with PBG is simulated and measured. It is shown that the photonic band‐gap (PBG) can suppress harmonics and optimize the current distribution on the patches. As a result, the gain of the antenna array is improved and the side‐lob