Part I. A New Phase of Matter?: 1. Micro-bang: big bang in the laboratory 2. Hadrons 3. Vacuum as a physical medium 4. Statistical properties of hadronic matter Part II. Analysis Tools and Experiments: 5. Nuclei in collision 6. Understanding collision dynamics 7. Entropy and its relevance in heavy ion collisions Part III. Particle Production: 8. Particle spectra 9. Highlights of hadron production Part IV. Hot Hadronic Matter: 10. Relativistic gas 11. First look at hadronic gas 12. Hagedorn gas Part V. QCD, Hadronic Structure and High Temperature: 13. Hadronic structure and quantum chromodynamics 14. Perturbative QCD 15. Lattice quantum chromodynamics 16. Perturbative quark-gluon plasma Part VI. Strangeness: 17. Thermal flavor production in deconfined phase 18. Strangeness background 19. Hadron freeze-out analysis.
Part I. A New Phase of Matter?: 1. Micro-bang: big bang in the laboratory 2. Hadrons 3. Vacuum as a physical medium 4. Statistical properties of hadronic matter Part II. Analysis Tools and Experiments: 5. Nuclei in collision 6. Understanding collision dynamics 7. Entropy and its relevance in heavy ion collisions Part III. Particle Production: 8. Particle spectra 9. Highlights of hadron production Part IV. Hot Hadronic Matter: 10. Relativistic gas 11. First look at hadronic gas 12. Hagedorn gas Part V. QCD, Hadronic Structure and High Temperature: 13. Hadronic structure and quantum chromodynamics 14. Perturbative QCD 15. Lattice quantum chromodynamics 16. Perturbative quark-gluon plasma Part VI. Strangeness: 17. Thermal flavor production in deconfined phase 18. Strangeness background 19. Hadron freeze-out analysis.
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