The aim of lesson: It is aimed to understand the properties, behaviors, decays, couplings and bound states of hadron particles, mesons and baryons.
Course Content: Quark model, mesons, light mesons, quantum numbers, internal symmetries, grouping, meson masses, potentials, bound states, photon-vector meson coupling, vector meson decays, transitions between meson states, hadronic jets, Dalitz analysis, baryons, flavor symmetry, baryon masses, spin-3/2 baryons, baryon magnetic moments, baryon decays, quasi-leptonic decays.
Week | Subject – Content | Teaching Method and Technique Used |
1 | Introduction | Lecture, Question and Answer |
2 | Quark Model | Lecture, Question and Answer, Application |
3 | Mesons, Light Mesons | Lecture, Question and Answer, Application |
4 | Quantum Numbers | Lecture, Question and Answer, Application |
5 | Internal Symmetries, Grouping | Lecture, Question and Answer, Application |
6 | Meson Masses | Lecture, Question and Answer, Application |
7 | Potentials, Connected States / Midterm Exam | Lecture, Question and Answer, Application |
8 | Photon-Vector Meson Coupling, Vector Meson Decays | Lecture, Question and Answer, Application |
9 | Transitions Between Meson States | Lecture, Question and Answer, Application |
10 | Hadronic Jets, Dalitz Analysis | Lecture, Question and Answer, Application |
11 | Baryons, Flavor Symmetry, Baryon Masses | Lecture, Question and Answer, Application |
12 | Spin-3/2 Baryons, Baryon Magnetic Moments | Lecture, Question and Answer, Application |
13 | Baryon Decays, Quasi-Leptonic Decays | Lecture, Question and Answer, Application |
14 | Baryon Decays, Quasi-Leptonic Decays | Lecture, Question and Answer, Application |
15 | Final |