Quantum Mechanics

My Notes

Quantum Mechanics

Quantum Mechanics is a fundamental theory in physics that provides a description of the physical properties of nature at the scale of atoms and subatomic particles. Here, I explore the complexities of quantum phenomena such as superposition and entanglement. I also discuss my interpretations and the implications of quantum mechanics on modern technology and theoretical physics.

Uncertainty Principle and Bell's Theorem

Particle in a Box

Particle and Barrier

Particle in a Box With Electric Field

Finite Potential Well

Quantum Harmonic Oscillator

Time Dependent Schrödinger Equation

Particle in a Box - Time Evolution

Quantum Harmonic Oscillator - Time Evolution

Wavepackets

Angular Momentum

Spherical Harmonics Visualization

The Hydrogen Atom

The Hydrogen Atom - Orbitals Visualization

Infinite Spherical Potential Well

Approximation Methods

Crystalline Semiconductors

Spin Simulation

Ladder Operators

Second Quantization

References

SUSSKIND, Leonard, 2015. Quantum Mechanics - The Theoretical Minimum. London: Penguin Books Ltd. ISBN 978-0-14-197781-2.

MILLER, David A. B., 2008. Quantum Mechanics for Scientists and Engineers. Cambridge ; New York: Cambridge University Press. ISBN 978-0-521-89783-9.

GRIFFITHS, David J. and SCHROETER, Darrell F., 2018. Introduction to Quantum Mechanics. 3rd edition. Cambridge ; New York, NY: Cambridge University Press. ISBN 978-1-107-18963-8

MILLER, David A. B., Quantum Mechanics for Scientists and Engineers 1, SOE-YEEQMSE-01, Stanford Online.

MILLER, David A. B., Quantum Mechanics for Scientists and Engineers 2, SOE-YEEQMSE-02, Stanford Online.