Simple broadband dual-polarized printed antenna

A dual-polarization wideband microstrip patch antenna is designed that has a VSWR F 2 in the bandwidth about 2.5 times wider than that of a standard square patch of the same dimension. Se¨eral characteristics of the antenna are analyzed using both Ensemble and an ( ) in-house finite-difference time-

This paper presents the design and results of a novel broadband dual-polarized circular patch antenna. The antenna is fed by microstrip lines through proximity coupling, and H-shaped slots are cut in the ground plane below the feed lines for enhancing the coupling between the patch and the feed line

Conical antennas mounted on finite ground planes are analyzed using a spherical-coordinate finite-difference time-domain ( ) FDTD model. Key features of the model are discussed, with particular emphasis placed upon modeling of the source region. Results demonstrate how ground plane size can be used

## Abstract A 15‐by‐20‐mm^2^ dual‐broadband printed monopole antenna fed by a coplanar waveguide is presented. With a numeral‐7 slit etched from the rectangular radiating element, the antenna can excite for its lower and upper impedance bands two and one resonant modes, respectively. With a back‐pa

This paper presents the design and development of a dual-polarized shaped-beam antenna for airborne synthetic aperture radar (SAR). A multilayer, stacked, printed antenna with electromagnetic coupling is chosen as the radiating element due to wide bandwidth and low cross polarization. Shaping in ele

Figure 4 Signal gain and noise figure as a function of laser wavelength The effects of the laser wavelength on the probe signal at s 1550 nm are given in Figure 4. As mentioned earlier, s the presence of an oscillating laser signal within the wavelength range of 1528᎐1533 nm reduces the upper level