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08.128.742 The Standard Model and Electroweak Theory

Course offering details

Instructors: Dr. Felix Yu Event type: Lecture/practice class Displayed in timetable as: 08.128.742 Hours per week: 4 Credits: 6,0 Language of instruction: Englisch Min. \| Max. participants: - \| - Requirements / organisational issues: Prerequisites: Electromagnetism (Theo 2), quantum mechanics (Theo 3 & 5), quantum field theory (Theo 6a), Theoretical Elementary Particle Physics Attendees are expected to have working knowledge of quantum field theory and basic familiarity with the Standard Model of particle physics. Contents: This course will cover a range of topics in Standard Model and electroweak physics, with a focus on theoretical calculations and comparison with the experimental state of the art. Various units include: 0. Review of SM electroweak symmetry breaking Gauge sector Quark sector, CKM matrix Lepton sector, PMNS matrix, the question of the origin of neutrino masses 1. Higgs physics SM Higgs production mechanicsm and decays The hierarchy problem and the electroweak scale Extended Higgs sectors BSM decays of the 125 GeV Higgs Current status of Higgs measurements 2. Electroweak physics Linear, Nonliear realizations of EWSB Anomalous gauge couplings Gauge boson scattering and unitarity Goldstone boson equivalence 3. Quark and lepton flavor physics Kaon, D-meson, B-meson physics Top physics Muon and tau physics Flavor-changing neutral currents Rare processes in the SM CP violation tests Electric dipole moments 4. Neutrino physics Majorana vs. Dirac Seesaw variations 5. Collider physics Parton distribution functions and partonic cross sections Quarks/gluons from partons to jets Sudakov logarithms 6. (Time permitting) Tabletop precision experiments of the SM Electron g-2 Newton's G experiments Recommended reading list: Lecture notes will be posted online after each lecture Relevant arXiv (pre-print) reviews will also be mentioned Secondary references: Michael Peskin, Daniel Schroeder An Introduction to Quantum Field Theory Westview Press, 1995, ISBN 0-201-50397-2 Matthew D Schwartz Quantum Field Theory and the Standard Model Cambridge University Press, 2013, ISBN: 1107034736

Appointments
	Date	From	To	Room	Instructors
1	Tue, 19. Apr. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
2	Mon, 25. Apr. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
3	Tue, 26. Apr. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
4	Mon, 2. May 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
5	Tue, 3. May 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
6	Mon, 9. May 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
7	Tue, 10. May 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
8	Mon, 16. May 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
9	Tue, 17. May 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
10	Mon, 23. May 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
11	Tue, 24. May 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
12	Mon, 30. May 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
13	Tue, 31. May 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
14	Tue, 7. Jun. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
15	Mon, 13. Jun. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
16	Tue, 14. Jun. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
17	Mon, 20. Jun. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
18	Tue, 21. Jun. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
19	Mon, 27. Jun. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
20	Tue, 28. Jun. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
21	Mon, 4. Jul. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
22	Tue, 5. Jul. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
23	Mon, 11. Jul. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
24	Tue, 12. Jul. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu
25	Mon, 18. Jul. 2022	08:15	09:45	01 525 Seminarraum K	Dr. Felix Yu
26	Tue, 19. Jul. 2022	12:15	13:45	01 525 Seminarraum K	Dr. Felix Yu

Course specific exams
	Description	Date	Instructors	Mandatory
1.	Oral Examination	Time tbd		Yes

Class session overview

Instructors

Dr. Felix Yu

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