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Quantum scattering theory
30 November - 6 December
Lecture recording: Quantum Defect Theory II
Lecture recording: Quantum Defect Theory II
Completion requirements
Lecture recording: Quantum Defect Theory II
◄ Lecture recording: Numerical excercise + Quantum defect theory I
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Syllabus
Brief introduction to the different strands of collision physics
I. Light- matter interaction
II. Electron and Antimatter interactions
III. Heavy particles: with zero to relativistic speeds
Classical scattering theory and its limitations
Quantum theory of scattering in 1D
Quantum scattering in 3D - stationary theory
Assignment no. 1
Numerical solution of bound and scattering problems in 1D Numerov method.pdf
Scattering in 3D: time-dependent picture
Lippman-Schwinger equation
Analytic properties of S-matrix
Formal scattering theory
Variational principles in the scattering theory
R-matrix method
Multichannel approach: theory and numerics
Assignment no. 2
Introduction to Quantum Defect Theory
Lecture recording: Numerical excercise + Quantum defect theory I