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2023/2024
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Applied Quantum Chromodynamics at High Energies

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Code Completion Credits Range Language
02AQCD ZK 2 2+0 Czech
Garant předmětu:
Ján Nemčík
Lecturer:
Ján Nemčík
Tutor:
Supervisor:
Department of Physics
Synopsis:

This lecture is oriented to provide basic applications of quantum chromodynamicks that corresponds to understanding of the dynamics of processes in particle physics at high energies on proton and nuclear targets that are currently measured by experiments at RHIC and LHC colliders. Complementary informations to lectures of Basics of quantum chromodynamics will be provided.

Requirements:

Knowledge of quantum field theory and basics of quantum chromodynamics

Syllabus of lectures:

1. Basics of theory of strong interactions - QCD Lagrangian and symmetries, QCD versus QED, asymptotic freedom, chiral symmetry breaking, quark confinement, evidence for colored quarks

2. Color transparency ? quasi-elastic scattering on nuclei, diffractive electroproduction of vector mesons

3. Hadronization of colored charges

4. DIS - Bjorken scaling and parton model, scaling violation and DGLAP evolution equation, factorization theorem

5. BFKL formalism

6. GLR-MQ evolution equation and saturation

7. Color dipole formalism and DIS at small x - KST model, GBW model, GBW model with DGLAP equation and dipole evolution

8. Production of Drell-Yan pairs and direct photons - parton description,color dipole approach description

9. Diffraction - diffraction in non-abelian theories, quantum mechanics of diffraction, diffractive DIS, diffractive Drell-Yan, diffractive Higgs boson production

10. Quark and gluon shadowing, Cronin effect and nuclear broadening

11. Quenching of high-pT hadrons: Energy loss vs Color transparency

12. Energy conservation in high-pT nuclear reactions

13. Production of heavy quarks as an alternative way for study of properties of the medium created after heavy ion collisions

Syllabus of tutorials:
Study Objective:

Knowledge:

Methods used in quantum chromodynamics

Skills:

Using of above mentioned methods on certain problems in quantum chromodynamics

Study materials:

Key references:

[1] F. Halzen, A.D. Martin: Quarks and Leptons, John Wiley and sons, 1984

[2] B. Z. Kopeliovich, A. Rezaeian: Applied high energy QCD; Int.J.Mod.Phys. E18, 1629 (2009);

Applied QCD; 4th CERN - CLAF School of High-Energy Physics, Vina del Mar, Chile, 18 Feb - 3 Mar 2007, pp.51-104 (CERN-2008-004).

Recommended references:

[2] W.Greiner, S. Schramm, E. Stein: Quantum Chromodynamics; Springer, 1989

[3] R. Vogt: Ultrarelativistic Heavy-Ion Collisions; Elsevier Science, 2007

[4] B.Z. Kopeliovich, J. Nemchik: Challenges of high-pT processes on nuclei; J. Phys G38, 043101 (2011).

Note:
Time-table for winter semester 2023/2024:
Time-table is not available yet
Time-table for summer semester 2023/2024:
Time-table is not available yet
The course is a part of the following study plans:
Data valid to 2024-03-27
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