| Code |
Course Name |
Language |
Type |
| FIZ 415 |
Quantum Mechanics II |
Turkish |
Compulsory |
| Local Credits |
ECTS |
Theoretical |
Tutorial |
Laboratory |
| 4 |
7 |
3 |
2 |
0 |
| Course Prerequisites and Class Restriction |
| Prerequisites |
FIZ 311 MIN DD
or FIZ 311E MIN DD
or FIZ 314 MIN DD
or FIZ 314E MIN DD
|
| Class Restriction |
None |
| Course Description |
| Angular Momentum: general formalism of angular momentum, Eigenstates of the angular momentum operators ,the rigid
rotator, the angular momentum matrices; Spherically Symmetric Systems: the radial momentum, the radial equation, the
free particle in spherical coordinates, the spherical infinite well, the two-particle problem, the spherical finite well
(deuteron), the hydrogen atom; Spin: the Stern-Gerlach experiment and spin, spin ½, a charged particle in a uniform
magnetic field, precession; Addition of Angular Momenta : coupled and uncoupled representations, addition of two
angular momenta, Clebsch-Gordan coefficients, addition of spin and orbital angular momenta; Identical Particles: the
two-particle systems, the identical particle systems, exchange operator, the Pauli principle, N-particle systems, the Fermi
energy, density of states; Time Independent Perturbation Theory: Non-degenerate perturbation theory, degenerate
perturbation theory, the Stark effect, fine structure of hydrogen (relativistic effect and spin-orbit coupling), the Zeeman
effect; The Variational Principle : Rayleigh-Ritz variational principle, the Helium atom; Time Dependent Perturbation
Theory: harmonic perturbation, sudden and adiabatic perturbation. |
|
