1. STATIONARY FIELD
1.1 Electrostatic field. Calculation field with scalar potential
Multipole expansion of static fields. Energy field.
1.2 Magnetostatic field of permanent magnets and its solution using
magnetostatic respectively. vector potential.
1.3 Field of stationary currents. Ohm's law for the circuit with an external source,
magnetic field outside circuits.
1.4 Quasistationary field, its definition and solution potentials. System
circuits, the oscillation circuit. Skin effect.
2. Nonstationary FIELD
1.2 The laws of conservation of energy and momentum.
2.2 Solution using the scalar and vector potential.
3.2 Multipole expansion of nonstationary field.
3. Propagation of electromagnetic waves
1.3 Wave propagation in a lossless environment. Homogeneous wave equation.
Monochromatic plane waves and their properties. Polarization waves. Energy
transmitted monochromatic waves.
2.3 Wave propagation in a lossy environment. Generalized wave equation. Properties
monochromatic plane waves. Energy transmitted waves absorption.
3.3 Wave propagation in anisotropic dielectric crystals. Material relations
and the relative position of the fundamental vector field. Phase and radial velocity
monochromatic waves, optical axis. Polarization waves in crystals. Uniaxial
crystals.
3.4 Wave propagation in anisotropic media loss. Yehův formalism
Jones and Mueller matrices, coherent matrix.
3.5 Wave propagation in environments with induced anisotropy and active media,
Magnetic-.
4. WAVES OF CONDUCT interface between two media
1.4 Derivation of the law of reflection and refraction and Fresnel formulas at the interface of two
lossless environment from the boundary conditions.
2.4 Reflectance and transmittance between two lossless environment and their
dependence on the angle of incidence.
4.3 Total reflection at the interface of two lossless environment, complex shape
reflection and transmission coefficients. Reflected and refracted wave at full
reflection.
4.4 Reflection and refraction at interfaces lossless and lossy environments.
5.4 Reflection and refraction at the interface of two anisotropic environment.
6.4 Propagation of the electromagnetic waves in multilayers.
4.7 Prismatic weave, tunnel effect, ATR.
5. INTERACTION OF ELECTROMAGNETIC WAVES with periodic structure
5.1 Reflection on 1D and 2D isotropic and lossless lattices.
2.5 Reflection on 1D and 2D anisotropic lattices.
1.1 Electrostatic field. Calculation field with scalar potential
Multipole expansion of static fields. Energy field.
1.2 Magnetostatic field of permanent magnets and its solution using
magnetostatic respectively. vector potential.
1.3 Field of stationary currents. Ohm's law for the circuit with an external source,
magnetic field outside circuits.
1.4 Quasistationary field, its definition and solution potentials. System
circuits, the oscillation circuit. Skin effect.
2. Nonstationary FIELD
1.2 The laws of conservation of energy and momentum.
2.2 Solution using the scalar and vector potential.
3.2 Multipole expansion of nonstationary field.
3. Propagation of electromagnetic waves
1.3 Wave propagation in a lossless environment. Homogeneous wave equation.
Monochromatic plane waves and their properties. Polarization waves. Energy
transmitted monochromatic waves.
2.3 Wave propagation in a lossy environment. Generalized wave equation. Properties
monochromatic plane waves. Energy transmitted waves absorption.
3.3 Wave propagation in anisotropic dielectric crystals. Material relations
and the relative position of the fundamental vector field. Phase and radial velocity
monochromatic waves, optical axis. Polarization waves in crystals. Uniaxial
crystals.
3.4 Wave propagation in anisotropic media loss. Yehův formalism
Jones and Mueller matrices, coherent matrix.
3.5 Wave propagation in environments with induced anisotropy and active media,
Magnetic-.
4. WAVES OF CONDUCT interface between two media
1.4 Derivation of the law of reflection and refraction and Fresnel formulas at the interface of two
lossless environment from the boundary conditions.
2.4 Reflectance and transmittance between two lossless environment and their
dependence on the angle of incidence.
4.3 Total reflection at the interface of two lossless environment, complex shape
reflection and transmission coefficients. Reflected and refracted wave at full
reflection.
4.4 Reflection and refraction at interfaces lossless and lossy environments.
5.4 Reflection and refraction at the interface of two anisotropic environment.
6.4 Propagation of the electromagnetic waves in multilayers.
4.7 Prismatic weave, tunnel effect, ATR.
5. INTERACTION OF ELECTROMAGNETIC WAVES with periodic structure
5.1 Reflection on 1D and 2D isotropic and lossless lattices.
2.5 Reflection on 1D and 2D anisotropic lattices.