A time domain theoretical method for the analysis of microstrip antennas composed by slots

## Abstract The finite‐difference time domain (FDTD) method is successfully used to analyze characteristics of a U‐slot patch antenna without using commercial software packages such as HFSS, IE3D, and CST. The method is proved to be an efficient tool for deep insight studies on complicated patch an

## Figure 4 Measured antenna gain in the broadside direction against frequency for the proposed antenna shown in Figure 2 with s 40Њ c the antenna gain near the center operating frequencies can be enhanced, and the antenna-gain variation within the operating bandwidth can further be reduced. ## 4

Figure 8 Numerical eigenvalues as a function of mobile node coordinate z for different basis function orders. Curved element case of the basis functions increases. This is not trivial, and shows a better capability of elements with higher order basis functions to produce good results, even for low-

A panel-free method (PFM), based on the desingularized Green's formulae proposed by Landweber and Macagno, has been developed to solve the radiation problem of a floating body in the time domain. The velocity potential due to a non-impulsive velocity is obtained by solving the boundary integral equa