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Principles of charged particles acceleration including principles of synchrotrons, storage rings, beam parameter determination, synchrotron light sources, medical accelerators.
Third Year
  
Formalism, Quantum Dynamics, Angular Momentum Theory, Central Force Problem, Approximation Methods, and Applications
Third Year
  
Experiments including:gamma-ray Spectroscopy, alpha and beat- spectroscopy, X-ray spectroscopy, Neutron spectroscopy
Third Year
  
Identical Particles, Scattering Theory, Time- dependent perturbation Theory, Quantum Radiation Theory, Introduction to Relativistic Quantum Mechanics
Fourth Year
  
Nuclear properties; Nuclear forces; Nuclear matter; Nuclear models; Nuclear radiation: Alpha; Beta, and Gamma decays; Special topics in intermediate energy; and Nuclear structure.
Masters degree level
  
Advanced course in structure of complex nuclei, Nuclear Models, Conservation laws, Introduction to Theory of Scattering and Nuclear reactions
Masters degree level
  
Experimental studies in various applications of nuclear physics: gamma, alpha and beta spectroscopy and radiation protection
Fourth Year