Momentum Conservation and Optical Force Momentum Conservation 10 Chap8 Maxwell Stress T Dispersion of Permittivity Dispersions of Materials Midterm Wave Equations. Chap9 Electromagnetic wave 4 Boundary conditions. Electromagnetic waves in Vacuum Reflection and Transmission from a semi infinitedielectric 12 Chap9 Electromagnetic 4 Waves in Matte Conductors Introduction to Lumerical and Student Proiects Decay into both media. 13 Chap9 Application based on Snell'sLaw Optical fibers.Wispering Gallery mode.Goos- Hanchen Shift Microwave Devices Wave Equations with conductors 14 Chap9 4 Numerical/Microwave photonic crystal Experiment Demonstratior Understand retarded Scalar and Vector potential and Chap 10 Potential Retarded Potentia vector potential 16 Chap 11 Radiation Dipole Radiation10 Chap 8 Momentum Conservation and Optical Force Dispersion of Permittivity Midterm 4 Momentum Conservation; Maxwell Stress Tensor Dispersions of Materials 11 Chap 9 Electromagnetic Wave 4 Wave Equations, Boundary conditions, Electromagnetic Waves in Vacuum 12 Chap 9 Electromagnetic Waves in Matter 4 Reflection and Transmission from a semi￾infinite dielectric Electromagnetic Waves in Conductors Introduction to Lumerical and Student Projects 13 Chap 9 Application based on Snell’s Law 4 Total internal refraction. Decay into both media. Optical fibers. Wispering Gallery mode. Goos– Hänchen Shift 14 Chap 9 Microwave Devices: cavity, parallel plates, waveguides, 1D photonic crystal 4 Wave Equations with conductors Numerical/Microwave Experiment Demonstration 15 Chap 10 Scalar and Vector Potential Retarded Potential 4 Understand retarded potential and electromagnetic potential Grasp the application of vector potential 16 Chap 11 Radiation 4 Dipole Radiation