Summer Semester 2008/09
Summer Semester 2009/10
Summer Semester 2010/11
Field theory ES3A200001
Course content:
Vector and tensor calculus.
Maxwell's equations: extended notation.
Propagation of EM field in dielectric and conducting bodies.
Edge phenomena, and current distribution in the conductors.
Resonators: multiharmonic analysis, different modes.
Electric polarization and dispersion of EM waves: models, precursors.
Fractional calculus in EM field theory.
Metamaterials: structure, field phenomena.
Superconductors: phenomenological and theoretical models, field phenomena, dynamics.
Thermal phenomena in electrical problems.
Some case studies related to presented problems.
Learning outcomes:
Students are able to:
(a) manage with some field problems, and some other problems described by partial differential equations;
(b) understand and analyze some field problems related to modern electric technologies;
(c) validate and interpret the electric and thermal field phenomena;
(c) asses reliability of numerical results;
(in Polish) Rodzaj przedmiotu
Course coordinators
Bibliography
a) basic references:
Baron B., Spałek D.: Wybrane problemy z teorii pola elektromagnetycznego. Wydaw. Politechniki Śląskiej, Gliwice, 2006.
Caloz C., Itoh T.: Electromagnetic metamaterials. John Wiley & Sons, 2006.
Huray P.G.: Maxwell's Equations. Wiley, 2009.
Lehner G.: Electromagnetic field theory for engineers and physicists. Springer, 2010.
Morawski T., Gwarek W.: Teoria pola elektromagnetycznego. WNT, 1985.
Stankowski J., Czyżak B.: Nadprzewodnictwo. WNT, 1999.
White J.F.: High frequency techniques. Wiley-Interscience, 2004.
b) supplementary references:
Kraśkiewicz J.: Elementy klasycznej i kwantowej teorii pola. Wydaw. UMCS, Lublin, 2003.
Kącki E.: Równania różniczkowe cząstkowe w zagadnieniach fizyki i techniki. WNT, Warszawa, 1995.
Krakowski M.: Pole elektromagnetyczne. PWN, Warszawa, 1999.
Sikora R.: Teoria pola elektromagnetycznego. WNT, Warszawa, 1997.
Landau L.D., Lifszic E.M.: Teoria pola. PWN, Warszawa, 2009.