## Theory of electromagnetic waves: a coordinate-free approach |

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### Contents

Basic Equations of Electrodynamics | 58 |

Some General Properties of Plane Waves | 89 |

Plane Waves in Isotropic Media | 123 |

Copyright | |

10 other sections not shown

### Common terms and phrases

according to Eq amplitude vectors anisotropic antisymmetric matrix boundary conditions Brewster angle complex components constant magnetic field constant phase constitutive relations determinant dielectric tensor direction of wave dispersion equation dot product dyadic Green function eigenvalues eigenvector electric and magnetic extraordinary wave far-zone field vectors frequency Green function group velocity Hence hermitian incident wave integral interface isotropic medium linear lossless lossy medium magnetic field Maxwell equations moving medium obtain optic axis parallel perpendicular phase velocity plane of incidence planes of constant plasma Poynting vector Prob radiation ray vector reflected wave reflection and transmission refraction respectively shown in Fig side of Eq sin2 solution Substituting Eq symmetric symmetric matrix time-averaged Poynting vector total reflection transformation transmitted waves uniaxial medium uniform plane wave unit vector vector E0 wave normal wave number wave propagation wave vector wave vector surface zero