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Handout 23a Handout 23b : CMOS Reflection and transmission for multilayer structures, AR and HR coatings, 1-dimensional photonic bandgap structures, multilayer structures for non-normal incidence (TE and TM waves).Handout 22 : G-Plane and Smith Charts, load matching and stub tuning, quarter wave transformers.Handout 21 : Impedance transformations in transmission line RF and microwave circuits, equivalent circuit models, short load, open load, matched load, Thevenin equivalent circuit models, power dissipation.Handout 20 : Transmission lines, types of transmission lines, fields, voltages and currents on transmission lines, transmission line equations, transmission line dispersion relations, transmission line impedances.Handout 19 : Non-normal incidence of waves at media interfaces, phase matching condition, reflection, refraction, Snell’s law, critical angle and evanescent waves, Brewster’s angle.Handout 18 : Wave reflection and transmission at media interfaces, reflection and transmission coefficients, standing waves and standing wave ratio.Handout 17 : Wave propagation in anisotropic media, biaxial media, uniaxial media, half-wave plates, quarter-wave plates, birefringence.Handout 16a Handout 16b : Wave propagation in isotropic media dielectrics and conductors, plasmas, dispersive media, wave packets, phase and group velocities.Handout 15 : Polarization states of plane waves, linearly polarized waves, circularly polarized waves, elliptically polarized waves, left-hand and right-hand circularly (or elliptically) polarized waves.Handout 14 : Time-harmonic electromagnetic fields, phasors, complex version of Maxwell’s equations, complex Poynting vector.
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Handout 12 : Energy, forces, and work in electromagnetics, forces between charged dielectrics and conductors, electromagnetic energy, forces, and work in closed systems and systems connected to voltage sources.Handout 11 : Faraday’s Law and electromagnetic Induction, non-uniqueness of voltages in magnetoquasistatics, current-charge continuity equation in electromagnetism, power-energy continuity equation in electromagnetism, Poynting’s vector, electromagnetic energy and power flow and connection with electrical circuit theory.Handout 10 : Magnetoquasistatics in the presence of perfect metals, boundary conditions, method of images, inductance, inductances of some simple structures.Handout 9 : Magnetoquasistatics, Ampere’s law, the vector potential, the vector Poisson equation, Biot-Savart law, magnetic fields of some simple current distributions, magnetic flux and the vector potential.Handout 8 : Problems and examples involving material polarization, dielectrics, and boundary conditions.Handout 7 : Material polarization, polarization charge and current densities, mathematics of polarization in electromagnetism, dielectrics vs conductors, boundary conditions.
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Handout 6 : Capacitance, problems in Cartesian, Cylindrical and Spherical coordinates.Handout 5 : Electrical conduction and perfect metals in electroquasistatics, solution of Laplace and Poisson equations with metal electrodes, boundary conditions, dielectric relaxation, image charges and method of images.Handout 4 : Electric scalar potential, Poisson equation, Laplace equation, superposition principle, problem solving.Handout 3 : Electrostatics, applications of Gauss’ Law in problem solving, applications of the superposition principle in problem solving, some simple charge distributions.Handout 2 : Maxwell’s equations in integral and differential forms, electrostatics and magnetostatics, electroquasistatics and magnetoquasistatics.Handout 1 : Applications of electromagnetic fields and waves in industry and research.