Lectures on Electromagnetic Field Theory

1 Lectures onElectromagnetic Field TheoryWeng Cho CHEW1 Fall 2019, Purdue University1 Updated: December 4, 2019 ContentsPrefacexiAcknowledgementsxii1 Introduction, Maxwell s Importance of Electromagnetics .. Brief History of Electromagnetics .. Maxwell s equations in Integral Form .. Static Electromagnetics .. s Law (Statics) .. FieldE(Statics) .. s Law (Statics) .. of Gauss s Law from Coulomb s Law (Statics) ..92 Maxwell s equations , Differential Operator Gauss s Divergence Theorem .. s Law in Differential Operator Form .. Meaning of Divergence Operator .. Stokes s Theorem .. s Law in Differential Operator Form.

2 Meaning of Curl Operator .. Maxwell s equations in Differential Operator Form ..243 Constitutive Relations, Wave Equation, Electrostatics, and Static Green Simple Constitutive Relations .. Emergence of Wave Phenomenon, Triumph of Maxwell s equations .. Static Electromagnetics Revisted .. s Equation .. Green s Function .. s Equation ..32iiiElectromagnetic Field Theory4 Magnetostatics, Boundary Conditions, and Jump Magnetostatics .. on Coulomb s Gauge .. Boundary Conditions 1D Poisson s Equation .. Boundary Conditions Maxwell s equations .. s Law .. s Law .. s Law.

3 S Law for Magnetic Flux ..445 Biot-Savart law, Conductive Media Interface, Instantaneous Poynting Derivation of Biot-Savart Law .. Boundary Conditions Conductive Media Case .. Field Inside a Conductor .. Field Inside a Conductor .. Instantaneous Poynting s Theorem ..506 Time-Harmonic Fields, Complex Time-Harmonic Fields Linear Systems .. Fourier Transform Technique .. Complex Power ..597 More on Constitute Relations, Uniform Plane More on Constitutive Relations .. Frequency Dispersive Media .. Media .. Media .. Media .. and Biaxial Media .. Media .. Wave Phenomenon in the Frequency Domain.

4 Uniform Plane Waves in 3D ..688 Lossy Media, Lorentz Force Law, Drude-Lorentz-Sommerfeld Plane Waves in Lossy Conductive Media .. Lorentz Force Law .. Drude-Lorentz-Sommerfeld Model .. Dispersive Media .. Nanoparticles ..819 Waves in Gyrotropic Media, Gyrotropic Media .. Wave Polarization .. Polarization Case and Axial Ratio .. Polarization and Power Flow ..91 Contentsiii10 Spin Angular Momentum, Complex Poynting s Theorem, Lossless Condi-tion, Energy Spin Angular Momentum and Cylindrical Vector Beam .. Complex Poynting s Theorem and Lossless Conditions .. Complex Poynting s Theorem.

5 Lossless Conditions .. Energy Density in Dispersive Media ..9711 Transmission Transmission Line Theory .. Time-Domain Analysis .. Frequency-Domain Analysis .. Lossy Transmission Line .. 10612 More on Transmission Terminated Transmission Lines .. Shorted Terminations .. Open terminations .. Smith Chart .. VSWR (Voltage Standing Wave Ratio) .. 11613 Multi-Junction Transmission Lines, Duality Multi-Junction Transmission Lines .. Single-Junction Transmission Lines .. Two-Junction Transmission Lines .. Stray Capacitance and Inductance.

6 Duality Principle .. Unusual Swaps .. Fictitious Magnetic Currents .. 12914 Reflection and Transmission, Interesting Physical Reflection and Transmission Single Interface Case .. TE Polarization (Perpendicular or E Polarization)1.. TM Polarization (Parallel or H Polarization) .. Interesting Physical Phenomena .. Total Internal Reflection .. 13715 Interesting Physical More on Interesting Physical Phenomena, Homomorphism, Plane Waves, Trans-mission Lines .. Brewster Angle .. Surface Plasmon Polariton .. Homomorphism of Uniform Plane Waves and Transmission Lines equations .

7 1481 These polarizations are also variously know as thesandppolarizations, a descendent from the notationsfor acoustic waves wheresandpstand for shear and pressure waves Field TE or TEzWaves .. TM or TMzWaves .. 15016 Waves in Layered Waves in Layered Media .. Generalized Reflection Coefficient for Layered Media .. Phase Velocity and Group Velocity .. Phase Velocity .. Group Velocity .. Wave Guidance in a Layered Media .. Transverse Resonance Condition .. 15817 Dielectric Generalized Transverse Resonance Condition .. Dielectric Waveguide .. TE Case.

8 TM Case .. A Note on Cut-Off of Dielectric Waveguides .. 16918 Hollow Hollow Waveguides .. Absence of TEM Mode in a Hollow Waveguide .. TE Case (Ez= 0,Hz6= 0) .. TM Case (Ez6= 0,Hz= 0) .. Rectangular Waveguides .. TE Modes (H Mode orHz6= 0 Mode) .. 17619 More on Hollow Rectangular Waveguides, Contd.. TM Modes (E Modes orEz6= 0 Modes) .. Bouncing Wave Picture .. Field Plots .. Circular Waveguides .. TE Case .. TM Case .. 18520 More on Waveguides and Transmission Circular Waveguides, Contd.. An Application of Circular Waveguide.

9 Remarks on Quasi-TEM Modes, Hybrid Modes, and Surface Plasmonic Modes Quasi-TEM Modes .. Hybrid Modes Inhomogeneously-Filled Waveguides .. Guidance of Modes .. Homomorphism of Waveguides and Transmission Lines .. TE Case .. TM Case .. Mode Conversion .. 20021 Cavity Resonators .. Transmission Line Model .. Cylindrical Waveguide Resonators .. Some Applications of Resonators .. Filters .. Electromagnetic Sources .. Frequency Sensor .. 21322 Quality Factor of Cavities, Mode The Quality Factor of a Cavity .. General Concepts.

10 Relation to the Pole Location .. Some Formulas forQfor a Metallic Cavity .. Example: TheQof TM110 Mode .. Mode Orthogonality and Matrix Eigenvalue Problem .. Matrix Eigenvalue Problem (EVP) .. Homomorphism with the Waveguide Mode Problem .. Proof of Orthogonality of Waveguide Modes .. 22223 Scalar and Vector Scalar and Vector Potentials for Time-Harmonic Fields .. Introduction .. Scalar and Vector Potentials for Statics, A Review .. Scalar and Vector Potentials for Electrodynamics .. More on Scalar and Vector Potentials .. When is Static Electromagnetic Theory Valid?