Exploring Quantum Physics

An introduction to quantum physics with emphasis on topics at the frontiers of research, and developing understanding through exercise.

About The Course

Quantum physics is the foundation for much of modern technology, provides the framework for understanding light and matter from the subatomic to macroscopic domains, and makes possible the most precise measurements ever made.  More than just a theory, it offers a way of looking at the world that grows richer with experience and practice.  Our course will provide some of that practice and teach you "tricks of the trade" (not found in textbooks) that will enable you to solve quantum-mechanical problems yourself and understand the subject at a deeper level.

The basic principles of quantum physics are actually quite simple, but they lead to astonishing outcomes.  Two examples that we will look at from various perspectives are the prediction of the laser by Albert Einstein in 1917 and the prediction of antimatter by Paul Dirac in 1928.  Both of these predictions came from very simple arguments in quantum theory, and led to results that transformed science and society.  Another familiar phenomenon, magnetism, had been known since antiquity, but only with the advent of quantum physics was it understood how magnets worked, to a degree that made possible the discovery in the 1980’s of ultrastrong rare-earth magnets.  However, lasers, antimatter and magnets are areas of vibrant research, and they are all encountered in the new field of ultracold atomic physics that will provide much of the material of “Exploring Quantum Physics”.

Richard Feynman once said, “I think I can safely say that nobody understands quantum mechanics.”  We say, that’s no reason not to try! What Feynman was referring to are some of the “spooky” phenomena like quantum entanglement, which are incomprehensible from the standpoint of classical physics. Even though they have been thoroughly tested by experiment, and are even being exploited for applications such as cryptography and logic processing, they still seem so counterintuitive that they give rise to extraordinary ideas such as the many-world theory. Quantum physics combines a spectacular record of discovery and predictive success, with foundational perplexities so severe that even Albert Einstein came to believe that it was wrong.  This is what makes it such an exciting area of science!

Frequently Asked Questions

Will I get a certificate after completing this class?

Those who complete the course will get a Statement of Accomplishment.

Recommended Background

The purpose of this course is to provide a graduate/advanced undergraduate level introduction to  quantum mechanics.  The emphasis throughout the course will be on applications of general techniques to specific quantum-mechanical problems and phenomena. Basic understanding of calculus and linear algebra is essential for completing this course, and knowledge of differential equations and Fourier transforms is valuable. Previous exposure to quantum mechanics would be helpful, but is not assumed. The course will be self-contained and an introduction will be provided.