H-Field, E-Field, and Combined Field Solutions for Bodies of Revolution

“…Computations indicate that the H-field solution of [1] is more accurate than the E-field solution of [2] and that the present H-field solution is nearly as accurate as the H-field solution of [2]. Hence, the combined field solution obtained by putting together the present H-field solution and the E-field solution of [1] should compare favorably with the combined field solution of [2].…”

“…The purpose of the present paper is to develop an H-field solution which can be used alone or used in conjunction with the E-field solution in [1] to obtain a combined field solution which is hopefully more accurate than the one in [2]. Here, H-field solution means a solution to the magnetic field integral equation for a perfectly conducting body immersed in an incident electric field.…”

ANH‐FIELD SOLUTION FOR ELECTROMAGNETIC SCATTERING BY A CONDUCTING BODY OF REVOLUTION

“…Computations indicate that the H-field solution of [1] is more accurate than the E-field solution of [2] and that the present H-field solution is nearly as accurate as the H-field solution of [2]. Hence, the combined field solution obtained by putting together the present H-field solution and the E-field solution of [1] should compare favorably with the combined field solution of [2].…”

“…The purpose of the present paper is to develop an H-field solution which can be used alone or used in conjunction with the E-field solution in [1] to obtain a combined field solution which is hopefully more accurate than the one in [2]. Here, H-field solution means a solution to the magnetic field integral equation for a perfectly conducting body immersed in an incident electric field.…”

ANH‐FIELD SOLUTION FOR ELECTROMAGNETIC SCATTERING BY A CONDUCTING BODY OF REVOLUTION

“…Using the above description of the BOR geometry and some change of variables, the vector integral equation (3.1) can be written as the following two scalar integral equations [13] …”

“…Among the integral equation based methods that exploit azimuthal symmetry, the frequency-domain BOR Method of Moments (BOR-MoM) is perhaps the most mature. The mathematical formulation was first given in [1], while the first BOR-MoM algorithm was described in [11,12]. A MoM formulation was used in [8] for a perfectly electrically conducting (PEC) body of revolution coated with layered, homogeneous dielectric.…”

Locally corrected Nyström method for EM scattering by bodies of revolution

“…Once the equivalent surface currents are solved, other interesting characteristics such as the radar cross section (RCS) can be calculated easily. If the boundary condition for tangential electric fields are used, then we get the electric field integral equation (EFIE) [3][4][5] and if the boundary condition for tangential magnetic fields are sued, then we get the magnetic field integral equation (MFIE) [4][5][6]. Both kinds of integral equations are widely used in modeling the equivalent surface currents for a conducting scatterer.…”

The use of the constant vector basis functions for the magnetic field integral equation