Authors

Mehdi Ayouz, V. Kokoouline, J.M. Gillet, P.E. Janolin

Quantum mechanics

  • Introduction
  • Module 1
    Modeling an infinite potential well and other types of quantum wells.

  • Module 2
    Simulating the \(\alpha \)-decay of a radioelement.
    Calculation of the half-life of a particle in a nucleus.

  • Module 3
    Rotational Constants determination.

  • Module 4
    Graphical presentation of the Spherical Harmonics.

  • Module 5
    Simulations of the Hydrogen atom.

  • Module 6
    Harmonic oscillator (1D and 2D).

  • Module 7
    Time-Dependent Schrodinger Equation Solving.

  • Module 8
    Time-Dependent Schrodinger Equation Solving in the case 2D diffraction.

  • Module 9
    Perturbation Theory (1D & 2D).

  • Module 10
    Time dependent perturbation theory.

  1. 1
  2. 2

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