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Perfect electromagnetic conducting (PEMC) boundary is a generalization of both PEC and PMC boundaries, creating nonreciprocal reflection which could be cross-polarized with respect to the incident wave. In this communication, reflection from a stratified medium, backed by a PEMC boundary due to an oblique incident plane wave is calculated analytically. In general, the medium is considered as N layers...
Reflection from a stratified medium, backed by a perfect electromagnetic conductor (PEMC) due to an oblique incident plane wave is calculated analytically and numerically. Applying the PEMC boundary condition, the analytic reflection dyad is computed by the notion of propagators and wave-splitting technique and the numerical implementation is carried out using the FDTD method. FDTD modeling is achieved...
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