Quantum Field Theory I (Student)
This module introduces the canonical quantization of scalar, spinor, and abelian gauge fields. The Feynman diagram technique for perturbation theory is developed. Some applications in particle theory are discussed.
Course curriculum
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1
Course Overview
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Introduction
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2
Module 1: Classical Theory, Noether's Theorem, and Canonical Quantization of the Klein-Gordon Field
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Lecture 1.1 - Video
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Lecture 1.1 - Audio
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Lecture 1.1 - PDF
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Lecture 1.2 - Video
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Lecture 1.2 - Audio
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Lecture 1.2 - PDF
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Module 1 Tutorial
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Module 1 Discussion
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3
Module 2: LSZ Reduction Formula
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Lecture 2.1 - Video
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Lecture 2.1 - Audio
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Lecture 2.1 - PDF
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Module 2 Tutorial
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Module 2 Discussion
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4
Module 3: Interaction Picture, Wick's Theorem, and Feynman Diagrams
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Lecture 3.1 - Video
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Lecture 3.1 - Audio
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Lecture 3.1 - PDF
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Lecture 3.2 - Video
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Lecture 3.2 - Audio
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Lecture 3.2 - PDF
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Module 3 Tutorial
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Module 3 Homework
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Module 3 Discussion
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5
Module 4: Cross Sections and Decay Rates
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Lecture 4.1 - Video
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Lecture 4.1 - Audio
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Lecture 4.1 - PDF
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Module 4 Tutorial
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Module 4 Discussion
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6
Module 5: Introduction to Loops
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Lecture 5.1 - Video
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Lecture 5.1 - Audio
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Lecture 5.1 - PDF
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Module 5 Tutorial
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Module 5 Discussion
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7
Module 6: Introduction to Spinors, Lagrangian for Spinors Dirac, and Weyl and Majorana Spinors Classical Solutions to the Dirac Equations
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Lecture 6.1 - Video
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Lecture 6.1 - Audio
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Lecture 6.1 - PDF
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Module 6 Discussion 1
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Lecture 6.2 - Video
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Lecture 6.2 - Audio
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Lecture 6.2 - PDF
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Module 6 Discussion 2
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Module 6 Tutorial
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Module 6 Homework
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8
Module 7: Symmetries of Spinor Lagrangians Quantization of Spinor Fields
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Lecture 7.1 - Video
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Lecture 7.1 - Audio
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Lecture 7.1 - PDF
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Module 7 Tutorial
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Module 7 Discussion
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9
Module 8: Feynman Propagator for Spinors Yukawa Theory and Feynman Rules for Dirac Fermions
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Lecture 8.1 - Video
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Lecture 8.1 - Audio
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Lecture 8.1 - PDF
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Module 8 Tutorial
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Module 8 Discussion
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10
Module 9: Electromagnetism, Covariant Quantization, Gupta-Bleuler Quantization, and e+ e- to mu+ mu- Crossing Symmetry Photon Polarization Sum
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Lecture 9.1 - Video
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Lecture 9.1 - Audio
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Lecture 9.1 - PDF
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Module 9 Discussion 1
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Lecture 9.2 - Video
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Lecture 9.2 - Audio
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Lecture 9.2 - PDF
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Module 9 Discussion 2
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Module 9 Tutorial
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Lecture 9.3 - Video
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Lecture 9.3 - Audio
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Lecture 9.3 - PDF
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Module 9 Discussion 3
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Module 9 Homework
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11
Conclusion
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References
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