Elektrodynamik

Wintersemester 2022/2023

Vorlesung: W.P. Schleich

Seminar: W.P. Schleich mit E. Glasbrenner und S. Böhringer

Inhalt

  • I. Maxwell Equations
       1. "Derivation" of Maxwell Equations
       2. Gauge Freedom
       3. Gauge Principle Determines Minimal Coupling
       4. Supplements: Schrödinger Equation Revisited
  • II. Electrodynamics in Four Dimensions
       1. Special Relativity
       2. Klein-Gordon Field
       3. Relativistic Electrodynamics
       4. Propagators of the Electromagnetic Field
       5. Electrodynamics without Fields
  • III. Electrodynamics in 1+3 Dimensions
       1. Propagation
       2. Electrostatics
       3. Dielectric Media
       4. Magnetostatics

Literatur:

Elektrodynamik: 

  • Wolfgang Nolting, Grundkurs Theoretische Physik 3 - Elektrodynamik (Spinger, 2012)
  • Wolfgang Nolting, Grundkurs Theoretische Physik 4 - Spezielle Relativitätstheorie (Spinger, 2012)
  • D.J. Griffith - Introduction to Electrodynamics  (Cambridge University Press, 2017)
  • J. D. Jackson, Klassische Elektrodynamik, de Gruyter, 2006

Klassische Feldtheorie:

  • A. O. Barut – Electrodynamics and Classical Theory of Fields & Particles (Dover Books on Physics, 1980)

 Quantenmechanik:

  • Daniel A. Steck - Quantum Mechanics (University of Oregon, 2019) Link: http://atomoptics-nas.uoregon.edu/~dsteck/teaching/quantum-mechanics/
  • Claude Cohen-Tannoudji, Bernard Diu, Frank Laloe - Quantum Mechanics, Vol. I and II (Wiley, 1977)
  • Richard P. Feynman, Albert R. Hibbs - Quantum Mechanics and Path Integrals (Dover Books on Physics, 2010)