## Electromagnetic FieldsProfessor Jean Van Bladel, an eminent researcher and educator in fundamental electromagnetic theory and its application in electrical engineering, has updated and expanded his definitive text and reference on electromagnetic fields to twice its original content. This new edition incorporates the latest methods, theory, formulations, and applications that relate to today's technologies. With an emphasis on basic principles and a focus on electromagnetic formulation and analysis, Electromagnetic Fields, Second Edition includes detailed discussions of electrostatic fields, potential theory, propagation in waveguides and unbounded space, scattering by obstacles, penetration through apertures, and field behavior at high and low frequencies. |

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analysis antenna aperture applied assumed Bladel boundary conditions cavity charge circular coefﬁcients components conductor constant convergence cross section curl curl cylinder deﬁned derived determined dielectric diffraction dipole discussed in Section dyadic eigenfunctions eigenvalues eigenvectors electric field electromagnetic elements evaluation example expansion FDTD ﬁeld ﬁnite ﬁrst formula frequency given grad Green's Green’s function homogeneous IEEE Trans incident field inﬁnite inhomogeneous integral equation linear magnetic field matrix Maxwell's Maxwell's equations medium method mode multipole expansion numerical obtained orthogonal parameters perfectly conducting permission of IEEE plane wave polarization potential problem propagation radiation Radio Sci reﬂected region resonant satisﬁes satisfy scalar scattered field separation of variables shown in Figure shows singularity singularity exponent slot solution solved sources sphere spherical surface symmetric transformation vanishes vector vector potential volume waveguide zero