Abstract
The study of electromagnetic (EM) scattering from canonical structures is of prime interest, for the estimation of RCS of complex aerospace structures. Metamaterials exhibit special EM characteristics which may be useful in radar cross section (RCS) control. This motivates the parametric analysis of RCS of metamaterial coated structures. In this paper, an infinitely long PEC cylinder with one and two layers of metamaterial coating is considered. An analytical formulation is derived for the RCS of the coated cylinder, with the EM fields expressed as series summation of cylindrical wave functions. The unknown coefficients are obtained by applying appropriate boundary conditions and far field RCS is computed in terms of scattered field coefficients. Using this formulation, parametric analysis of RCS of coated cylinder is carried out and compared with that of the bare cylinder. The effect of constitutive material parameters of the coating and frequency on cylinder RCS is studied for both principal polarizations, with focus on RCS reduction.
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