P633/634 Outline : 

  1. Introduction
  2. Quantum Mechanics - review 
  Angular momentum 
  Tensor Operators, Wigner-Eckart theorem
  Rotation group, matrix representation
  Heisenberg, Schrodinger and Interactions pictures
  S-matrix
  Lippman-Schwinger equation
  Second quantization, particle number representation
  Quantum fields, (nonrelativistic) 
  3. N-N Interactions
  Preliminaries
  N-N scattering
  Symmetry constraints
  Properties of N-N potential
  Meson exchange models
  4. Nuclear Matter
  Properties of nuclear matter
  Fermi gas model
  Independent Pair Approximation
  5. Nuclear Structure
  Nuclear shell model
  Particle hole excitations
  Excited states
  6. Interactions with external probes
  Dirac equation
  Field quantization (relativistic)
  Feynman rules
  Quantum Electrodynamics
  Multipole analysis of the EM field
  Electron scattering
  7. Hadron Spectroscopy, symmetries and quarks
  U(1) (lepton, baryon, axial) P, C, invariance
  SU(2) Isotopic and G parity
  Meson and Baryon octets
  8. Constituent Quark Model 
  SU(6) : quarks with spin
  SU(6) x O(3) : ... and with orbital excitations
  Strong, EM and weak transitions
  Spectroscopy and model hamiltonians
  9. Parton model
  (In)elastic eN scattering
  Deep Inelastic Scattering
  Space-time picture of the parton model
  Constituent vs current quarks : quark-parton model
  10. Quantum Chromodynamics
  Color confinement
  QCD as a gauge theory
  Hamiltonian formulation
  Path integrals, Feynman rules and Green's functions
  Renormalization
  11. Applications
  e^+e^- annihilation
  Scaling violations in DIS
  Drell-Yan and fragmentation functions
  12. QCD in the Soft Domain
  Lattice formulation
  Heavy quarkonia
  QCD sum rules
  QCD inspired models
  Chiral invariance and effective Lagrangians
  13. Summary