Design of compact size tapered slot antenna

In this paper, we propose a frequency-notched ultrawideband (UWB) slot antenna. The proposed antenna can cover the entire UWB band and the IEEE 802.11a frequency band can be notched out by inserting a hat-shaped slot into the antenna. The path loss ͉S 21 ͉ and group delay are measured and discussed.

The performance of S-bends, which are used for connecting wa¨eguides offset with respect to each other, is ¨ery important in integrated-optic wa¨eguide circuits. Se¨eral approaches for the design of S-bends ha¨e been reported in the literature. These include, in particular, designs based on simple s

## Abstract A tapered slot antenna to be used in ultra wideband microwave imaging systems aimed for early breast cancer detection is presented. A synthetic array is designed to operate across the ultra wideband frequency band in the air. The mutual coupling effects between the antennas have been in

## Abstract The design of an ultra‐wideband planar tapered slot antenna for use in a circular cylindrical microwave imaging system is presented. The antenna was designed assuming high dielectric substrate material Rogers RT6010LM to achieve its compact size. The developed antenna element (50 × 50 m

## Abstract An accurate Method of Moments (MoM) model is developed and implemented for the analysis of the linearly tapered slot antenna (LTSA). The model employs an unequal size reactangular sectioning for conducting parts of the antenna. Piecewise sinusoidal basis functions are used for the expan

and a coplanar microstrip feed has been studied. Good agreement between the simulated results and experimental ones confirms the cavity-model theoretical analysis. The results also demonstrate that this proposed antenna achieves high isolation (better than Ϫ41 dB) for two polarizations in the entire