What people are saying - Write a review
We haven't found any reviews in the usual places.
Plane Waves in Homogeneous Isotropic Media
Plane Waves in Inhomogeneous Stratiﬁed Media
7 other sections not shown
Other editions - View all
Abramowitz and Stegun angle aperture axial Bessel functions boundary conditions branch cut branch point coefﬁcients coeﬂicients conﬁguration Consider contour cos(B current distribution deﬁned delta function denote density differential equation eigenfunctions electric and magnetic electric dipole electric ﬁeld electric permittivity electromagnetic electron evaluated exp(ik0 ﬁeld vector ﬁnd ﬁnding ﬁnite ﬁrst term follows formula Fourier geometrical optics geometry Green function half plane half space Hankel function Hence Hertzian vector homogeneous inﬁnite integral representation integrand interface isotropic line source magnetic current magnetic ﬁeld components magnetoplasma magnetostatic magnetostatic ﬁeld Moreover obtain path of integration path of steepest perfectly conducting plane wave plasma polarization poles Poynting vector problem propagation radiation ﬁeld real axis reﬂection refraction region saddle point satisﬁed satisfy the differential shown in Fig sinz solution steepest descents Substituting surface tangential transform vanishes wave equation zero