Quantum Mechanics Lecture Notes (PDF 293P)

An introduction to Schrodinger quantum mechanics

This note covers Mathematical elements, Schrodinger equations, Applications, Heisenberg indeterminacy principle, Links and further reading.

Author(s): Mauro Murzi

31 Pages

Lecture Notes for Quantum Mechanics F.H.L. Essler

The topics discussed in this lecture notes include: Probability Amplitudes and Quantum States, Operators and Observables, Position and Momentum Representations,Time Evolution in Quantum Mechanics,Wave mechanics, Harmonic Oscillators,Transformations and Symmetries,Heisenberg picture and Heisenberg equation of motion, Rotational invariance and angular momentum as a good quantum number,Position representation and angular momentum, Angular momentum and magnetic moments,Spin and total angular momentum,QM systems composed of two parts, Product States vs entangled states, Addition of angular momenta, EPR experiment and Bell inequalities, Position representation, Energy eigenvalues and emission spectra of hydrogen, Explicit form of the wave functions.

Author(s): F.H.L. Essler, The Rudolf Peierls Centre for Theoretical Physics, Oxford University

97 Pages

Lecture Notes on Quantum Mechanics KIT

The contents of the notes include: The Schrodinger equation, Measurement and uncertainty, The harmonic oscillator, Angular momentum and spin, Particles in an external magnetic eld, Pictures in quantum mechanics, Particle in a central potential, Time independent Perturbation theory, Variational principle, Path integral formulation of quantum mechanics, Scattering Theory.

Author(s): Jorg Schmalian, Karlsruhe Institute of Technology

118 Pages

Lectures on Quantum Mechanics David Tong

This is an introductory note on quantum mechanics. Topics covered includes: A Quantum Particle in One Dimension, The Formalism of Quantum Mechanics, A Quantum Particle in Three Dimensions.

Author(s): David Tong

NA Pages