Abstract
This paper presents the study of interaction between the cloaked cylindrical object and electromagnetic waves. The 2D scattering width of the cylindrical objects with and without the metasurface is numerically and analytically investigated with the design frequency of 3 GHz. The electromagnetic waves in the presence of the dielectric and metallic of the cylindrical objects with and without metasurface are numerically characterized by the plane waves. Instead of the plane wave source, a resistive antenna whose modulated frequency of 3 GHz is designed and utilized to radiate a short pulse. With the designed resistive dipole antenna, the several scenarios in the far and near region are numerically explored with the conducting cylindrical object with and without the metasurface. The pulse characteristics, such as transmission coefficient, received spectrum, received pulse, and reflected pulse, are then intensively investigated with the conducting cylinder with and without the metasurface.
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