For students as well as experienced practitioners who would like to explore quantum physics using Mathematica
. Divided into two parts: Systems in One Dimension and Quantum Dynamics. Many pertinent computational problems and exercises are integrated in the book and accompanying diskette.
Part I: Systems in One Dimension: Basic Wave Mechanics | Particle in a Box | Uncertainty Principle | Free-Particle Wavepacket | Parity | Harmonic Oscillator | Variational Method and Perturbation Ideas | Squeezed States | Basic Matrix Mechanics | Partial Exact Diagonalization | Momentum Representation | Lattice Representation | Morse Oscillator | Potential Scattering Part II: Quantum Dynamics:Quantum Operators | Angular Momentum | Angular Momentum Coupling | Coordinate and Momentum Representations | Angular Momentum in Spherical Coordinates | Hydrogen Atom Schrödinger Equation | Wavefunctions from the Runge-Lenz Algebra