courses
This course mainly covers approximation methods in quantum mechanics. It begins by studying three common schemes used in finding the approximate solutions of energy eigenvalues and eigenfunctions…
Course Description: The wave function, The statistical interpretation of the wave function, operators, expectation values, the uncertainty principle. Time-…
This PhD course deals with the fundamental theory of strong interactions, the so-called Quantum Chromodynamics or QCD for short. This field theory describes the dynamics of quarks and gluons. It…
This PhD course covers the following topics: functional methods in QFT, renormalization of QFTs, renormalization group, symmetry breaking, and non-Abelian field theories The basic reference…
This PhD course deals with quantum electrodynamics (QED), the quantum field theory of photons and charged leptons (i.e., electrons, positrons). QED is the most accurate theory known in physics.…
This is a master level course. I have taught it during the fall of the academic year 2015-2016. The course was an introduction to the group theory and its applications in quantum mechanics,…
This heavy and intensive course mainly deals with mathematical methods in physics. The course covers special functions of integral form and their applications in physics. This includes gamma and…
This course establishes the theoretical grounds of electromagnetism. It covers the concept of vector: gradient, divergence, curl. The Stock’s and Green’s theorems are also covered. It also covers…
The imaginary (more precisely complex) numbers are very important in physical applications. This course is designed to cover complex analysis, which is needed to understand advanced courses in…