Lecture Syllabus - PHYS 625 (Fall
'14)
Chapter
1: Nuclear Forces and Structure (Sept. 01 - Sep. 26)
- Empirical properties of the
nucleon-nucleon interaction
- Nuclear matter and Fermi gas model
- Brueckner-Bethe-Goldstone theory
- Shell model of the nucleus
Chapter 2: Relativistic Nuclear Many-Body Problem (Sep. 29 - Oct. 20)
- Lagrangian mechanics, symmetries
and Klein-Gordon equation
- Relativistic mean-field theory and sigma-omega model
- Quantum Hadrodynamics (QHD)
- QHD at finite temperature
Chapter
3: Hadron Structure and Quantum Chromodynamics (Oct. 22 - Nov. 17)
- Electron scattering and hadron
sub-structure
- SU(3) flavor symmetry and
constituent-quark model
- Quarks, gluons and QCD
- Static QCD and heavy quarkonia
- Bag, Nambu-Jona Lasinio and instanton models
- Nonperturbative vacuum structure and mass
generation
Chapter
4: Quark-Gluon Plasma and High-Energy Heavy-Ion Collisions (Nov. 19 - Dec. 08)
- QCD phase diagram
- Hadronic matter and spectral
functions
- Observables in heavy-ion collisions
- QGP probes I: heavy quarks
- QGP probes II: photons and dileptons