Scattering of H-wave by a moving dispersive conducting complex object

The effect of the moving dispersive conducting complex scatterer on the scattering of incident H-wave is investigated herein. In this research, a simulation shows how the scattered phase and magnitude of a moving (rotating and translating) circular cylinder with higher conductivity, made of dispersive material, is affected in the case of incident H-wave (TE-mode) polarization. The Franklin transformation is applied to study the scattering of incident wave by a rotating dispersive higher conductivity cylinder, and then the effect of translating dispersive higher conductivity cylinder is investigated by applying the Lorentz transformation. This effect is studied at different speed of rotation. Also, this work shows that the pattern of scattered phase and magnitude are changed in terms of incident frequency. Moreover, a created model is used to demonstrate the impact of moving dispersive higher conductivity cylinder using backscattered static data which is generated using a comprehensive computational electromagnetics software (FEKO). The comparison between patterns of scattering of incident H-wave by a moving dispersive and non-dispersive higher conductivity cylinder is considered to show clear behavior of scattering patterns, in terms of the material of scatterer.