1. Wave equation, orthogonality fields.
2. The impact of electromagnetic waves at dielectric interfaces.
3. The impact of electromagnetic waves on metal-dielectric interface.
4. Total reflection of waves, formation evanescentních waves and their description.
5. Use evanescentních waves in diagnostics of surfaces and interfaces.
6. The definition of isotropic and anisotropic environments, mathematical description.
7. Propagation of electromagnetic waves in anisotropic media.
8. Description of thin optical layers, plane-parallel structures.
9. Planar Fibre - Material and geometric description.
10.Vedení electromagnetic waves in planar waveguide.
11.Metoda dark lines - diagnostics of thin layers.
12.Vláknové skylights - characteristics, waveguide properties.
13.Optické sensors based on fiber light guides.
14.Basic magnetooptiky principles.
2. The impact of electromagnetic waves at dielectric interfaces.
3. The impact of electromagnetic waves on metal-dielectric interface.
4. Total reflection of waves, formation evanescentních waves and their description.
5. Use evanescentních waves in diagnostics of surfaces and interfaces.
6. The definition of isotropic and anisotropic environments, mathematical description.
7. Propagation of electromagnetic waves in anisotropic media.
8. Description of thin optical layers, plane-parallel structures.
9. Planar Fibre - Material and geometric description.
10.Vedení electromagnetic waves in planar waveguide.
11.Metoda dark lines - diagnostics of thin layers.
12.Vláknové skylights - characteristics, waveguide properties.
13.Optické sensors based on fiber light guides.
14.Basic magnetooptiky principles.