Course data
Course name: Quantum Mechanics 2
Neptun ID: BMETE15AF36
Responsible teacher: László Szunyogh
Programme: BSc Physics
Course data sheet: BMETE15AF36
Requirements, Information
Lecturer: László Szunyogh / Balázs Dóra
Time and place: Monday 12:15-13:45 F3M05 Seminar room
Actual information: -
Necessary background: Quantum Mechanics 1
Subjects
Based on the undergraduate learning of Quantum Mechanics this course provides advanced knowledge in Quantum Mechanics according to the following topics: Identical particles, He-atom, Hartree- and Hartree-Fock approximation. Scattering theory, scattering amplitude and cross section, Green functions, Lippmann-Schwinger equation, Born series, method of partial waves. Motion in electromagnetic field, Aharonov-Bohm effect, Landau levels. Time evolution and pictures in Quantum Mechanics (Schrödinger, Heisenberg and Dirac pictures). Adiabatic motion and Berry phase. Relativistic Quantum Mechanics: Klein-Gordon equation, Dirac equation, continuity equation, Lorentz invariance, spin and total angular momentum, free electron and positron, non-relativistic limit, spin-orbit interaction.
Timetable of lessons and practical courses
Grades
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Prerequisite for exam/grade: a valid grade from the Quantum Mechanics 2 practical course.
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Grades can be obtained by an oral exam: one subject is given from the this list
Literature:
Quantum Mechanics 2 Lecture notes (László Szunyogh & Bendegúz Nyári)
Relativistic Quantum Mechanics Lecture notes (László Szunyogh & Bendegúz Nyári)
Franz Schwabl: Quantummechanics, Springer 1990
Albert Messiah: Quantummechanics, Vol. 1-2, North Holland, 1986
- Tanár: Dóra Balázs
- Tanár: Szunyogh László