Particle physics I
PHYS-415
Media
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Course summary and goals
This course aims to make you familiar and comfortable with the main concepts of particle physics, providing a clear connection between the theory and relevant experimental results, including the most recent ones from current particle physics experiments.
The fall semester is centered on the discussion of quantum electrodynamics and experiments leading to its development and numerous experimental tests. We will look in more detail into the following topics:
- Particles and their interactions in the standard model
- Particle detection
- Particle decay rates and cross sections
- Interaction by particle exchange
- Electron-positron annihilation
- Electron-proton elastic scattering
- Deep inelastic scattering
- Symmetries and the quark model
At the end of the course, you should be able to operate with the main concepts, describe processes in particle physics with the help of Feynman diagrams, and solve related exercises.
Organisation and timing
Each week, there will be the following materials and activities:
- Live lecture with slides shared via moodle. We currently don't plan to record the lectures, but lectures from the previous two years are available via switchtube.
- Exercise class with several exercises to solve and to go through with the help of a TA.
Course teachers
- Lecturer: Prof. Radoslav Marchevski
- Teaching assistant: Raphaël van Laak
Course time and location
- Lecture sessions: Wednesdays 10:15 - 12:00 in BSP 626
- Exercise sessions : Wednesdays 14:15 - 16:00 in BSP 626
Assessment
For the written part of the exam, at the last exercises session of the semester, you will be given an exercise sheet that you will have to solve, which will constitute a fraction of your total grade. At the date of the oral exam you will be given time to prepare a randomly selected topic from the lecture material, which you will then discuss the topic you were given together with general topics that were covered in the course with the lecturer.
Reading list
The course closely follows the book by Mark Thomson, "Modern Particle Physics" (2013), which is available at the EPFL library.For summaries, most recent reviews and technical information, please use the Particle Data Group (PDG) website https://pdg.lbl.gov/.
September 11: Overview of Particle Physics
- Book chapters: (Text and media area)
- Thomson Chapter 1: Introduction (File)
- Thomson Chapter 2: Underlying concepts (File)
- Lecture slides: (Text and media area)
- L1 slides: Intro (File)
- Exercises: (Text and media area)
- Exercise 1 (File)
- Exercises solutions: (Text and media area)
- Exercise 1 - Solutions (File)
- Share your experience with us: (Text and media area)
- Feedback on the lecture and exercises (Feedback)
September 11 - II: Rutherford Scattering, particle decays and nonelementary particles
- Book chapters: refer to Chapter 1 from the pr... (Text and media area)
- Lecture slides: (Text and media area)
- Lecture 2 slides (File)
- Lecture notes: (Text and media area)
- Lecture 2 notes: Rutherford scattering (File)
- Additional material: PDG review, Passage... (Text and media area)
- Exercises: (Text and media area)
- Exercise 2 (File)
- Exercise 2 - Solutions (File)
- Share your experience with us: (Text and media area)
- Feedback on the lecture and exercises (Feedback)
September 18: Particle detection and particle decay rates
- Book chapters: for particle detection see Thomson ... (Text and media area)
- Thomson Chapter 3: Decay rates and cross sections (File)
- Lecture slides: (Text and media area)
- Lecture 3 (File)
- Lecture notes: (copy) (Text and media area)
- Additional material: PDG review, Kinematics (Text and media area)
- Exercise 3 (File)
- Exercise 3 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
September 25th: Particle decay rates
- Book chapters: see Thomson Chapter 3 from previous... (Text and media area)
- Lecture slides: (Text and media area)
- Lecture 4 slides (File)
- Lecture notes: (copy) (Text and media area)
- Lecture 4 notes: Particle decay rates (File)
- Lecture 4 notes: Particle scattering (File)
- Exercises: (Text and media area)
- Exercise 4 (File)
- Exercise 4 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
October 2nd: Particle scattering, cross sections
- Book chapters see chapter 3 attached to previous l... (Text and media area)
- Lecture slides and recordings: (Text and media area)
- Lecture 5 slides (File)
- Lecture notes: (copy) (copy) (Text and media area)
- Lecture 5 notes (File)
- Exercises: (Text and media area)
- Exercise 5 (File)
- Exercises solutions: (Text and media area)
- Exercise 5 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
October 9th: Quantum mechanics, the Klein-Gordon and Dirac equations
- Book chapters: (Text and media area)
- Thomson Chapter 4: The Dirac equation (File)
- Thomson: Errata (File)
- Lecture slides and recordings: (Text and media area)
- Lecture 6 slides (File)
- Exercises: (Text and media area)
- Exercise 6 (File)
- Exercises solutions: (Text and media area)
- Exercise 6 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
October 16th: Dirac equation continued
- Book chapters: (Text and media area)
- Thomson Chapter 5: Interaction by particle exchange (File)
- Lecture slides and recordings: (Text and media area)
- Lecture 7 slides (File)
- Exercises: (Text and media area)
- Exercise 7 (File)
- Exercise 7 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
October 30: Electron-positron annihilation
- Book chapters: (Text and media area)
- Thomson Chapter 6: Electron-positron annihilation (File)
- Lecture slides and recordings: (Text and media area)
- Lecture 8 slides (File)
- Lecture 8 notes (File)
- Exercises: (Text and media area)
- Exercise 8 (File)
- Exercises solutions: (Text and media area)
- Exercise 8 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
November 8: Elastic electron-proton scattering
- Book chapters: (Text and media area)
- Thomson Chapter 7: Electron–proton elastic scattering (File)
- Lecture slides and recordings: (Text and media area)
- Lecture 9 slides (File)
- Exercises: (Text and media area)
- Exercise 9 (File)
- Exercises solutions: (Text and media area)
- Exercise 9 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
November 22: Deep inelastic electron-proton scattering (DIS)
- Book chapters: (Text and media area)
- Thomson Chapter 8: Deep inelastic scattering (File)
- Lecture slides and recordings: (Text and media area)
- Lecture 11 DIS (File)
- Lecture 11 DIS notes (File)
- Exercises: (Text and media area)
- Exercise 10 (File)
- Exercises solutions: (Text and media area)
- Exercise 10 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
November 29: Symmetries and the quark model
- Book chapters (Text and media area)
- Thomson Chapter 9: Symmetries and the quark model (File)
- Lecture slides and notes: (Text and media area)
- Lecture 11 slides : Symmetries and the quark model (File)
- Lecture 11 notes (antiquarks) (File)
- Exercises: (Text and media area)
- Exercise 11 (File)
- Exercises solutions: (Text and media area)
- Exercise 11 - Solutions (File)
- Feedback on the lecture and exercises (Feedback)
December 6th: Symmetries and the quark model II
- Thomson Chapter 9: Symmetries and the quark model (File)
- Lecture slides and notes (Text and media area)
- Lecture 12 notes: Symmetries and the quark model II (File)
- Lecture 12 slides: Symmetries and the quark model II (File)
- Exercises (Text and media area)
- Exercise 12 (File)
- Exercises solutions: (Text and media area)
- Exercise 12 - Solutions (File)
December 16: Symmetries and the Quark Model (ctd.); Symmetries C, P, T in particle physics
- Lecture slides and recordings (Text and media area)
- Lecture 13: Symmetries and the Quark Model II (File)
- Exercises (Text and media area)
- Exercise 13 (File)
- Exercises solutions: (Text and media area)
- Exercise 13 - Solutions (File)