Tomasz M. Grzegorczyk

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Classes taught:

Spring 2005 (MIT-USA)

Lecturer of "Advanced Electromagnetics" (course nr. 6.635)

Details to come.

Spring 2004 (MIT-USA)

Lecturer of "Electromagnetic Wave Theory" (course nr.

6.632)

Reference book: Electromagnetic Wave Theory , J. A. Kong, EMW publishing, 2000.

Syllabus: Emphasis on mathematical approaches, problem solving, and physical interpretation. Topics include: waves in media, equivalence principle, duality and complementarity, Huygens' principle, Fresnel and Fraunhofer diffraction, dyadic Green's functions, Lorentz transformation, and Maxwell-Minkowski theory. Examples deal with limiting cases of Maxwell's theory and diffraction and scattering of electromagnetic waves.

Problem sets (teaching assistant: Xudong Chen): available soon

Illustrations: available soon

Fall 2003 (MIT-USA)

Lecturer of "Electromagnetic Theory" (course nr. 6.630)

Reference book: Electromagnetic Wave Theory , J. A. Kong, EMW publishing, 2000.
Maxwell Equations , J. A. Kong, EMW publishing, 2003.

Syllabus: Introduction to electromagnetics, emphasizing fundamental concepts and applications of Maxwell equations. Topics include: polarization, dipole antennas, wireless communications, forces and energy, phase matching, dielectric waveguides and optical fibers, transmission line theory and circuit concepts, antennas, and equivalence principle. Examples deal with electrodyanmics, propagation, guidance, and radiation of electromagnetic waves.

Problem sets (teaching assistant: Xudong Chen): available soon

Demos (teaching assistant: Xudong Chen): Brewster angle [PDF] -- Critical angle [PDF] -- Waveguide [PDF] -- Evanescent wave [PDF] -- Transmission line impedance matching [PDF] -- Dipole [PDF] -- Lumped transmission line [PDF] -- Resonant cavity and perturbation [PDF]

Illustrations/Movies: available soon

Spring 2003 (MIT-USA)

Lecturer of "Advanced Electromagnetics" (course nr. 6.635)

Lecture notes: Characterization of left-handed media [PDF] -- Dispersion relation in left-handed media [PDF] -- Green's function for planarly layered media [PDF1] [PDF2] -- Integral equations in electromagnetics [PDF] -- The Method of Moments in Electromagnetics [PDF] -- Time domain Method of Moments [PDF] -- Scattering and emission by periodic surfaces [1, chp. 3] -- Study of electromagnetic waves in periodic structures [PDF1] [PDF2] -- Study of electromagnetic waves in periodic structures: photonic crystals and negative refraction [PDF1] -- Electromagnetic scattering by single particle [1, chp 1] -- Fundamentals of random scattering [1, chp 3] -- Radiative transfer theory [1, chp 7] -- Scattering and emission by layered media [1, chp 5] -- Solution techniques for radiative transfer theory [1, chp 8] -- Volume scattering [1, chp 7] -- 1D random rough surface scattering [1, chp 9] -- Scattering and emission by a periodic rough surface [1, chp 3]

[1] Electromagnetic wave scattering -- Vol. 1, Tsang, Kong, Ding

Syllabus: Remote sensing, radiative transfer theory, scattering by rough surfaces, effective permittivities, random media, Green's functions for planarly layered media, integral equations in electromagnetics, method of moments, time domain method of moments, EM waves in periodic structures: photonic crystals and negative refraction, waves in dispersive media, microstrip integrated circuits, special relativity, electrodynamics of moving media,

1997-1998 (EPFL-Switzerland)

Teaching assistant for "Electromagnetics", "Waveguide Theory", "Antennas and Radiations".

*Reference book*:		Electromagnetic Wave Theory , J. A. Kong, EMW publishing, 2000.
*Syllabus*:		Emphasis on mathematical approaches, problem solving, and physical interpretation. Topics include: waves in media, equivalence principle, duality and complementarity, Huygens' principle, Fresnel and Fraunhofer diffraction, dyadic Green's functions, Lorentz transformation, and Maxwell-Minkowski theory. Examples deal with limiting cases of Maxwell's theory and diffraction and scattering of electromagnetic waves.
*Problem sets* (teaching assistant: Xudong Chen):		available soon
*Illustrations*:		available soon

*Lecture notes*:		Characterization of left-handed media [PDF] -- Dispersion relation in left-handed media [PDF] -- Green's function for planarly layered media [PDF1] [PDF2] -- Integral equations in electromagnetics [PDF] -- The Method of Moments in Electromagnetics [PDF] -- Time domain Method of Moments [PDF] -- Scattering and emission by periodic surfaces [1, chp. 3] -- Study of electromagnetic waves in periodic structures [PDF1] [PDF2] -- Study of electromagnetic waves in periodic structures: photonic crystals and negative refraction [PDF1] -- Electromagnetic scattering by single particle [1, chp 1] -- Fundamentals of random scattering [1, chp 3] -- Radiative transfer theory [1, chp 7] -- Scattering and emission by layered media [1, chp 5] -- Solution techniques for radiative transfer theory [1, chp 8] -- Volume scattering [1, chp 7] -- 1D random rough surface scattering [1, chp 9] -- Scattering and emission by a periodic rough surface [1, chp 3] [1] Electromagnetic wave scattering -- Vol. 1, Tsang, Kong, Ding
*Syllabus*:		Remote sensing, radiative transfer theory, scattering by rough surfaces, effective permittivities, random media, Green's functions for planarly layered media, integral equations in electromagnetics, method of moments, time domain method of moments, EM waves in periodic structures: photonic crystals and negative refraction, waves in dispersive media, microstrip integrated circuits, special relativity, electrodynamics of moving media,