Quantum Mechanics II
- UE code SPHYB301
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Schedule
45 30Quarter 1
- ECTS Credits 6
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Language
Français
- Teacher
Introduction to the Mathematical Concepts of Quantum Mechanics through Postulates
Application of QM in atomic and molecular physics, nuclear physics and solid state physics (including quantum harmonic oscillator)
Kinetic moment and spin
Approximation methods for complex systems
The students will be familiar with the notions of kinetic moment and spin. The applications of QM in atomic and molecular physics, nuclear physics and solid state physics will be addressed : harmonic oscillator, symetries, Hydrogen atoms, approximation methods. These concepts will be preceded by an introduction to the mathematical concepts of quantum mechanics, through its postulates.
The lecture propose an introduction at the use of kinetic moment and spin in quantum mechanics. It addresses also basics problem in physics : harmonic oscillator, symetries, hydrogen atom, approximation methods. These concepts will be preceded by an introduction to the mathematical concepts of quantum mechanics, through its postulates.
Oral exams with preparation (50 %) during the exam session for theory
Written exams (50%) during the exam session for exercises
If one of the two grades is inferior to 8, the global exam is automatically considered failed (independently of the grade average).
A student that during the first session obtained a mark of a least 10/20 either for the exercises or for the entire theory part benefits from a partial exemption of either the exercises or the entire theory for the second exam session.
During the oral exam, the student will draw two questions, each covering a different part of the course. An insufficient grade on one of the two questions may result in a failure of the entire theory exam.
C. Cohen-Tannoudji, B. Diu et F. Laloë, Mécanique quantique I (Editions Hermann, Collection : Enseignement des sciences, 1997)
C. Cohen-Tannoudji, B. Diu et F. Laloë, Mécanique quantique II (Editions Hermann, Collection : Enseignement des sciences, 1997)
J.-M. Lévy-Leblond, F. Balibar, Quantique : Rudiments (Dunod, Collection : Les cours de reference, 2007)
C. Ngô, H. Ngô ,Physique quantique : Introduction - Cours et exercices corrigés (Dunod, Collection : Sciences sup physique, 2005)
B.H. Bransden, C.J. Joachain. Quantum Mechanics. Pearson Education (2000)
Mécanique Quantique. C. Aslungul. De Boeck - Larcier (2007)
Quantique. Fondements et applications. J.-P. Pérez, R. Charles, O. Pujol. De Boeck (2013)
Training | Study programme | Block | Credits | Mandatory |
---|---|---|---|---|
Bachelor in Physics | Standard | 0 | 6 | |
Bachelor in Physics | Standard | 3 | 6 |