MIT 8.323 Relativistic Quantum Field Theory I, Spring 2023 (English)

   Friday, November 29, 2024   

Starting a new Lecture Notes Series on MIT 8.323 Relativistic Quantum Field Theory I, Spring 2023

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Lecture 1: Lecture 1: Classical Field Theories and Principle of Locality

Lecture 2: Lecture 2: Symmetries and Conservation Laws

Lecture 3: Lecture 3: Why Quantum Field Theory

Lecture 4: Lecture 4: Canonical Quantization of a Free Scalar Field Theory

Lecture 5: Lecture 5: Complex Scalar Field Theory and Anti-Particle

Lecture 6: Lecture 6: Propagators and Green Functions

Lecture 7: Lecture 7: Interacting Theories and S-Matrix

Lecture 8: Lecture 8: Path Integral Formalism for Non-Relativistic Quantum Mechanics

Lecture 9: Lecture 9: Path Integral Formalism for QFT; Computation of Time-Ordered Correlation Functions

Lecture 10: Lecture 10: Time-Ordered Correlation Functions in Field Theory

Lecture 11: Lecture 11: Computation of Correlation Functions in Perturbation Theory and Feynman Diagrams

Lecture 12: Lecture 12: More on Perturbation Theory and Feynman Diagrams

Lecture 13: Lecture 13: Introducing the Dirac Equation

Lecture 14: Lecture 14: Lorentz Covariance of the Dirac Equation

Lecture 15: Lecture 15: Classical Solutions of Dirac Equations

Lecture 16: Lecture 16: Quantization of the Dirac Theory

Lecture 17: Lecture 17: Chiral and Majorana Spinors

Lecture 18: Lecture 18: Discrete Symmetries

Lecture 19: Lecture 19: Path Integrals of Fermions

Lecture 20: Lecture 20: Maxwell Theory and its Canonical Quantization

Lecture 21: Lecture 21: Quantum Maxwell Theory (continued)

Lecture 22: Lecture 22: Quantum Electrodynamics

Lecture 23: Lecture 23: Cross Section and Decay Rate

Lecture 24: Lecture 24: Elementary Processes in QED (I)

Lecture 25: Lecture 25: Elementary Processes in QED (II)

Lecture 26: Lecture 26: Quantum Fluctuations and Renormalization