Mathematica
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Hands-on Tutorials and Guides by Wolfram
Basics
- Wolfram Screencast: Hands-on start to Mathematica
- Fast Introduction for Math Students
- Wolfram University courses
Intermediate
- Calculus and Algebra
- Mathematical Functions
- Function Visualization
- Function in Complex Plane Visualization
- Data Visualization
Advanced
- Fourier Analysis
- Integral Transforms
- Asymptotic Calculus
- Special Functions for Quantum Mechanics
- Wolfram Quantum Framework
Mathematica Additional Packages for Quantum Mechanics
- Matrix Partial Trace calling via ResourceFunction
- SNEG package for Dirac notation and second quantization calculations
- R. Schmied, Using Mathematica for Quantum Mechanics: A Student’s Manual
Mathematica Notebooks for PHYS813
- Getting Started
- Black-body radiation: Classical vs. quantum statistical mechanics approach
- Essential quantum concepts using spin examples: Quantum states (vectors or density matrices), operators as observables, probabilities and expectation values
- Sommerfeld expansion
- B. Cowan, On the chemical potential of ideal Fermi and Bose gases, J. Low Temp. Phys. 197, 412 (2019). | [PDF and Mathematica notebooks]
