On the resonant behavior of the small Koch fractal monopole antenna

## Abstract In this paper, the multiband behavior of the Koch fractal monopole is considered as a function of its self‐similar geometry, height, and wire length. It is demonstrated that the outline shape and wire compression of its self‐similar geometry are primary factors in determining its multib

## Abstract An investigation of a novel fractal tree antenna with the application to two different geometries is presented. The antenna is designed by using the special Fibonacci number sequence which leads to nonuniform branch length ratios to form the fractal tree. This new approach gives better

## Abstract In this paper, the performance properties of the Hilbert curve fractal monopole are compared with those of simple meander line monopoles. It is demonstrated that small meander line monopoles of the same size and wire length as the Hilbert fractal exhibit similar behavior and performance

## Abstract The unique geometrical properties of fractals have been proven to be useful to design advanced antennas. Enhanced performance in terms of size, gain, or multifrequency behavior is observed in fractal‐shaped antennas. Here, a small and high‐directivity antenna based on the Sierpinski fra

## Abstract This article presents the design of a wheel‐shaped wide band fractal antenna. This fractal antenna has been designed on substrate ε~r~ = 4.3 and thickness __h__ = 1.53 mm. The new antenna has been fed with coplanar waveguide‐fed. The antenna exhibits the excellent ultrawide bandwidth fr

This paper is focused on the relation between the fractal geometry of the interface and the frequency dispersion of the impedance. As proved theoretically in a previous work it is experimentally verified that on Von Koch interfaces no straight forward relation exists between fractal dimension and ex