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* Understand the perturbation and scattering theory
* Understand variational principle, WKB, Adiabatic approximation
* Know how to apply the QM to a few examples including Fine structure, Zeeman effect, Laser, etc.
1 Week : Review of Quantum mechanics 1 Time independent Schrodinger equation, Formalism
2 Week : Review of Quantum mechanics 2 Hydrogen Atom, Angular Momentum
3 Week : Perturbation Theory, Time-independent 1 Nondegenerate/Degenerate Perturbation Theory
4 Week : Perturbation Theory, Time-independent 2 Fine structure of Hydrogen, Zeeman effect, Hyperfine splitting
5 Week : Variational Principle
6 Week : WKB Approximation 1
7 Week : WKB Approximation 2
8 Week : Midterm
9 Week : Time-dependent Perturbation Theory 1 Two-level systems, Emission and absorption of radiation
10 Week : Time-dependent Perturbation Theory 2 Spontaneous Emission
11 Week : Adiabatic Approximation
12 Week : Scattering 1 Intronduction, Partial wave analysis
13 Week : Scattering 2 Phase shifts, The Born approximation
14 Week : Identical Particles
15 Week : Project/review
16 Week : Final exam
used with an absolute standard not relative one. Help each other!
*Participation including LMS activity (10%)
*5-6 problems on LMS each week
*you may upload your solutions on LMS and LMS activity would be graded
*Subject : Any subject related to QM including Quantum chemistry, Quantum material, Quantum information, Quantum biology etc.
*Format : Korean or English, about 5 pages, like a Journal of Korean physical society
*proposal : 2 paragraphs at Week 9 / if failed, another by Week 10
*presentation : week 15
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