PROJECT TITLE :
Wave Concept Iterative Process Method for Electromagnetic or Photonic Jets: Numerical and Experimental Results
In this paper, we have a tendency to report the numerical and experimental observations of electromagnetic or photonic jets created by a planar metallic waveguide crammed with dielectric and terminated by an elliptical tip. The theoretical framework of the study is based on the wave concept iterative process (WCIP) methodology formulated in the spatial domain. The analyzed structure is worked up by the fundamental transverse electric mode of the waveguide. The accuracy and potency of our program are investigated; the results of the radiated power density show a smart agreement compared with those given by finite element methodology (FEM) simulation. The tangential electric field is computed along the elliptical tip interface and in its vicinity, i.e., in the exterior space. The parameters of the electromagnetic jet phenomenon are investigated in step with the geometrical and physical characteristics of the proposed structure. Our numerical simulations are in sensible agreement with the measurements, indicating that the electromagnetic jet can additionally be obtained within the microwave field.
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