Quantum Field Theory
dr hab. David Blaschke, prof. UWr
Part I: Summer Semester 2008
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1. Invitation: Pair Production in e+e- Annihilation
2. The Klein-Gordon Field - Exercises [pdf], 10.03.08; Exercises [pdf], 31.03.08 3. The Dirac Field - Exercises [pdf], 07.04.08; Exercises [pdf], 14.04.08 4. Interacting Fields and Feynman Diagrams - Exercises [pdf], 21.04.08 5. Elementary Processes: e+e- and pion-pion scattering - Exercises [pdf], 28.04.08; Exercises [pdf], 19.05.08 6. Functional Methods: Path Integral Quantization - Exercises [pdf], 26.05.08; Exercises [pdf], 09.06.08 7. Systematics of Renormalization 8. The Renormalization Group 9. Quantum Chromodynamics |
Part II:
1. Non-Abelian Gauge Invariance
2. Quantization of Non-Abelian Gauge Theories 3. Renormalization and Gauge Invariance 4. Gauge Theories and Spontaneous Symmetry Breaking- Exercises [pdf], 17.01.09 5. Field Theory and Collective Phenomena 6. Field Theory and Condensed Matter 7. Grand Unification? Open Questions |
Literature:
M.E. Peskin, D.V. Schroeder: Quantum Field Theory,
(Errata)
A. Zee: Quantum Field Theory in a Nutshell B. DeWit, J. Smith: Field Theory in Particle Physics D. Kazakov: Radiative corrections, divergences, ... (Lecture Notes) D. Blaschke: Introduction to Quantum Field Theory and Matter under Extreme Conditions, (Script) |
Last update: 3. March 2008