David A. Miranda, PhD 2020
This repository includes the material used in the quantum mechanic course offered in the second academic semester by the Physics School at Universidad Industrial de Santander, Bucaramanga, Colombia.
All the information about the course is ordered week by week in the WeekApp Syllabus.
- (Week 1) Classical particles and waves: WE, and explanation video.
- (Week 1) Momentum pperator: WE.
- (Week 1) Schrödinger equation: WE, and explanation video.
- (Week 2) Wave oacket and uncertanty: WE, python script, figure.
- (Week 2) Infinite quantum well: Prof. Steve WE.
- (Week 6) Reducibility of a C3v regular representation: WE.
- (Week 3) Electron in a 2D periodic structure: Jupyter Notebook.
- (Week 3) Elecgtron in a 3D periodic structure: Jupyter Notebook.
- (Week 4) s and p orbitals for hydrogenoids atoms: Jupyter Notebook.
- (Weeks 6 and 7) Reducible representation and its decomposition in irreducible representations: Jupyter Notebook, and explanation video.
- (Week 8) Rotation symmetry operator over a function f(x, y): WE, and explanation video.
- (Week 12) Two confinated indistinguible particles: Jupyter Notebook.
- (Week 12) Angular momentum sum: J. Daniel KelleyJacob, and J. Leventhal. Problems in Classical and Quantum Mechanics; exercises 5, 6, 8 and 9, explanation video.
- (Week 13) 1/2 spin: J. Daniel KelleyJacob, and J. Leventhal. Problems in Classical and Quantum Mechanics.
- (Week 1) Measuring the wave function: Lundeen et al., Nature 474 (2011) 188-191. Explanation video.