First and second year students enrolled in the Physics PhD program are required to take Physics Colloquium in their first and second years of study.
Lectures on topics of current interest in physics research and pedagogy. May be repeated for credit. Prerequisite: Instructor permission.
This is an introductory cosmology course for an advanced undergraduate/beginner graduate audience. This course aims to give a window into the history of our Universe, presented here in reverse order: …
An introduction to quantum computation, a modern discipline looking for ways to harness the power of quantum mechanics to gain exponential speedup of computations and simulations. We will go through …
The statics and dynamics of particles and rigid bodies. Discusses the methods of generalized coordinates, the Langrangian, Hamilton-Jacobi equations, action-angle variables, and the relation to quantum theory. Prerequisite: PHYS 3210 …
A consistent mathematical account of the phenomena of electricity and magnetism; electrostatics and magnetostatics; macroscopic media; Maxwell theory; and wave propagation. Prerequisite: PHYS 7250 or instructor permission.
Introduces the physical basis of quantum mechanics, the Schroedinger equation and the quantum mechanics of one-particle systems, and stationary state problem. Prerequisite: Twelve credits of 3000-level physics courses and MATH …
Independent research or practical training supervised by a faculty member. May be repeated for credit.
Introduces the quantization of field theories, including those based on the Dirac and Klein-Gordon equations. Derives perturbation theory in terms of Feynman diagrams, and applies it to simple field theories …
Studies the quantum theory of light and other boson fields with a special emphasis on the nonclassical physics exemplified by squeezed and entangled quantum states. Applications to quantum communication, quantum …