Particle Physics
You can find the course syllabus here, and updated lecture notes here
(last update: 16/10/2023).
The exercise class is passed by successfully solving the assigned homework.
For those who cannot complete the homework, a reparatory written test can
be done on request before the oral exam.
A list of exercises can be found here. Solutions are here.
Practice class (slides):
Lecture 1
Lecture 2
Practice class (updated slides):
Lecture 1
Lecture 2
Lecture 3
Homework is assigned each Monday and should be turned in the following Monday.
Homework 1 (deadline: 25/09/2023) Results 1
Homework 2 (deadline: 02/10/2023) Results 2
Homework 3 (deadline: 09/10/2023) Results 3
Homework 4 (deadline: 16/10/2023) Results 4
Homework 5 (deadline: 24/10/2023) Results 5
Admitted to oral exam (so far)
Further reading:
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D. Griffiths, "Introduction to elementary particles" (Wiley, 1987)
Patkós A., Polonyi J., "Sugárzás és részecskék" (Typotex, 2000)
D.H. Perkins, "Introduction to High Energy Physics" (Addison-Wesley, 1987)
O. Nachtmann, "Elementary particle physics" (Springer, 1989)
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Miscellaneous material:
Notes from the previous year (2022-2023) can be found here.
Lectures (2022-2023) - Prof. Dey
Lecture 1 Lecture 2
Practice 1 Practice 2
Lecture 3 Lecture 4
Lectures (2020/21):
Lect. 1 Lect. 2 Lect. 3 Lect. 4 Lect. 5 Lect. 6 Lect. 7
Lect. 8 Lect. 9 Lect. 10 Lect. 11 Lect. 12 Lect. 13 Lect. 14
Special relativity notes
For those interested, here are some notes on non-relativistic scattering theory
(cross sections are discussed in sec. 4.6, including the relativistic case).
Here is instead a bat eating a banana.
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Matteo Giordano -- giordano at bodri dot elte dot hu
Elméleti fizikai tanszék -- room 6.54B