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HUOM! OPINTOJAKSOJEN TIETOJEN TÄYTTÄMISTÄ KOORDINOIVAT KOULUTUSSUUNNITTELIJAT HANNA-MARI PEURALA JA TIINA HASARI

Table of Contents

1. Course title

Kvanttikenttäteoria II
Kvantfältteori II
Quantum Field Theory II


2. Course code

TCM312


3. Course status: compulsory or optional

-Which degree programme is responsible for the course?
Master’s Programme in Theoretical and Computational Methods

-Which module does the course belong to?
TCM300 Advanced Studies in Theoretical and Computational Methods
PAP300 , Advanced Studies in Particle Physics and Astrophysical Sciences (optional for Study Track in
PAP3002 Particle Physics and Cosmology), Advanced Studies

-Is the course available to students from other degree programmes?
Yes


4. Course level (first-, second-, third-cycle/EQF levels 6, 7 and 8)

Master’s level, degree programmes in medicine, dentistry and veterinary medicine = secondcycle
degree/EQF level 7
Doctoral level = third-cycle (doctoral) degree/EQF level 8


-Does the course belong to basic, intermediate or advanced studies (cf. Government Decree
on University Degrees)?
Advanced studies


5. Recommended time/stage of studies for completion

 


After QFT I has been completed


6. Term/teaching period when the course will be offered

 


Spring term

 

 



7. Scope of the course in credits

 


10 cr

8. Teacher coordinating the course

Prof. Oleg Lebedev 

9. Course learning outcomes


 

Understanding and practice of advanced concepts of quantum field theory such as renormalization, loop expansion, regularization techniques, anomalies, the Standard Model, CP violation. The student is prepared to contribute to original research in particle physics.


10. Course completion methods


 

Class attendance is strongly encouraged. Homework is assigned once a week and contributes 25% to the final grade, while the final exam contributes 75%. There are bonus points for in-class activities.


11. Prerequisites


 

QFT I


12. Recommended optional studies


 

Introductory Particle Physics; Higgs Physics; Supersymmetry; Thermal Field Theory


13. Course content


 

- Loop calculations and regularizations, renormalization, anomalies
- non-Abelian gauge theories, the Standard Model, CP violation
- effective field theory, flavor and CP problems in the Standard Model
- physics beyond the Standard Model


14. Recommended and required literature

 


- M. Peskin and D. Schroeder: An Introduction to Quantum Field Theory, Addison-Wesley 1995
- M. Schwartz: Quantum Field Theory and the Standard Model, Cambridge University Press 2014
- original research papers


15. Activities and teaching methods in support of learning


 

exercise sessions once a week; class activities encouraged with bonus points


16. Assessment practices and criteria, grading scale


 

1 to 5 (25% homework, 75% final exam, + bonus points)
 

17. Teaching language
English