PHY230A (Spring 24)
Quantum Theory of Fields

Instructor: Hsin-Chia Cheng (cheng [at] physics.ucdavis.edu)

Time & Place: Tue & Thu 9:00-10:20AM, 185 Physics

Office Hours: Tue 3-4 PM and Thu 12-1 PM in 414 Physics

Prerequisites: PHY200AB, PHY215AB

Website: http://www.physics.ucdavis.edu/~cheng/teaching/230A-s24

TA: Yifan Tang (phytang [at] ucdavis.edu, Office: PSEL 3007, Office Hour: Thu 2-3 PM in 80 Physics

Textbook: We will use the draft of "Fundamentals of Quantum Field Theory" by Timothy Cohen and Markus Luty, which is still under development. The first 13 chapters will be posted on the Canvas course site. We will roughly follow the book but may not cover everything discussed in the book. Some materials will be assigned as reading assignments. Other recommended textbooks with more modern approaches include Peskin & Shroeder, "An Introduction to Quantum Field Theory" and Matthew D. Schwartz "Quantum Field Theory and the Standard Model."

Homework: Homework assignments will be posted in the on the Canvas course page. There will be homework assignments mostly every week. The homework should be submitted to Gradescope. We will use Gradescope to handle the grading of homework and exams. No late homework will be accepted so even if you couldn't finish you should turn in what you have done. The solutions will be available on the Canvas course website soon after the deadline. Doing the problem sets is an extremely important part of learning. You can't learn the subject by just listening to the lectures without working through things by yourself. They also contain some of the important topics that we won't be able to cover in class.  You are encouraged to discuss the problem sets with your classmates, TA and me, but you are not allowed to copy other people's homework or solutions provided by online helpers such as Chegg. Each of you is required to write up your own homework following your own understandings. Each problem set is due about one week after its assignment.

Grading: Homework 50%, Midterm 20%, Final 30%

Outlines of the course

• Introduction: Problems of relativistic quantum mechanics and why we need a quantum field theory (CH1,2)
  
• Spacetime symmetry in quantum theories (CH3)
  
• From particles to fields (CH4)
  
• Interacting quantum fields (CH5)
  
• Scattering and S-matrix (CH6)
  
• Feynman diagrams and rules(CH7)
• Symmetries and conservation laws (CH8)
  
• Relativistic particles with spin (CH9)
  
• Spin-1/2 fermions (CH11-12)
  
• (If time permits) Introduction to quantum electrodynamics (QED) with spin-1 gauge field
  

Other Information

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