1.Introduction to electromagnetic optics, Maxwell's equations, constitutive relations and material parameters
2. Solution of the wave equation for plane monochromatic waves
3.Berreman's approach to solving Maxwell's equations for layered structures
4. Interface phenomena, conservation of tangent components of fields, T-matrix
5. Electromagnetic fields in periodic media, Bloch-Floquet theorem
6. Finite and infinite Fourier development
7. S-matrix algorithm for periodic structures
8. The problem of continuity of tangent components, factorization of Fourier expansions of array components
9. Conditions of guided and resonant modes, calculation of field distributions
10. Experimentally measured quantities, ellipsometric angles, Mueller matrices and depolarizations
11. Calculation of photonic crystal band structure, photonic forbidden band, optical nonreciprocity
12. Metamaterials and their effective material parameters
2. Solution of the wave equation for plane monochromatic waves
3.Berreman's approach to solving Maxwell's equations for layered structures
4. Interface phenomena, conservation of tangent components of fields, T-matrix
5. Electromagnetic fields in periodic media, Bloch-Floquet theorem
6. Finite and infinite Fourier development
7. S-matrix algorithm for periodic structures
8. The problem of continuity of tangent components, factorization of Fourier expansions of array components
9. Conditions of guided and resonant modes, calculation of field distributions
10. Experimentally measured quantities, ellipsometric angles, Mueller matrices and depolarizations
11. Calculation of photonic crystal band structure, photonic forbidden band, optical nonreciprocity
12. Metamaterials and their effective material parameters