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MSC and PHD Projects * Nuclear Matter Calculation : From nuclei to beta-stable, neutron stars and quark matter * Quantum liquid calculation in condensed matter physics : Helium 3 and 4, electron etc. * Parton model : Structure function of hadrons and nuclei. *QCD calculation : DGLAP, BFKL and CCFM evolution equation and their validities. *QED calculation : Nuclear finite size effect in atoms and applications of DLQ in QED. Lectures presented in physics department
1- Electromagnetism 1 and 2 (Ritz & Milford, B.Sc course, 7 times, BSc course ). 2- Electrodynamics 1 (Jackson, M.Sc course, 2 times ). 3- Field theory 1 (Quantum Electrodynamics) (Mandel & Shaw and Sakurai, Ph.D course, 3 times). 4- Field theory 2 (QCD, ElectroWeak, Lattice) (Mande & Show, Rothe, Ph.D course, 2 times). 4- Quantum Mechanics (Gasirowicz, B.Sc course, 8 times). 5- Advanced Quantum Mechanics 1 and 2 (Sakurai, Bethe & Jackiw, , 5 times). 6- Relativistic Quantum Mechanics (Sakurai, M.Sc and Ph.D course, 3 times). 7- Statistical Mechanics (Reif , Hung and Reichl, BSc, MSc and PhD courses, 10 times). 8- Analytical Mechanics 1 and 2 (Simon, BSc course, 3 times). 9- Mathematical Physics 1,2 and 3 (Arfken, BSc course, 3 times). 10- Nuclear Physics 1 and 2 (Meyerhof, Krane & Cohen BSc course, 6 times). 11- Nuclear Physics and nuclear structure (Irvine, preston & Bhaduri,PhD course, 3 times). 12- Advanced Nuclear Physics (Wong , MSc course, twice). 13- Modern Physics (Weidner and sells, BSc course, 3 times) 13-General Physics 1,2 and 3(Halliday & Resnick, BSc course, many times). 15- History of Physics (Barker, Modern Physics, collected text, BSc course, 5 times). |
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