Nonlinear science courses

Spring 2009 - Fall 2009

These pages are currently not updated (for the lack of manpower) they are here to give you some sense of advanced courses that are taught infrequently. Please contact the graduate studies coordinator or the course instructor sooner rather than later if you would like to take any of these courses.

Nonlinear Dynamics & Chaos - Roman Grigoriev
PHYS 4267/6268 - graduate/advanced undergraduate level. The material covered includes differential equations, their stability and bifurcations, iterated maps, deterministic chaos, fractals, and strange attractors with applications to physical, chemical, and biological systems. Enforced Pre-requisites MATH 2403 OR MATH 2413 OR MATH 24X3 OR MATH 3308. Basic knowledge of computer programing required.

Spatiotemporal Dynamics and Pattern Formation - Roman Grigoriev
PHYS 8803 - This advanced graduate level course will develop a general theory of pattern formation in nonequilibrium systems using linear stability theory, bifurcations and symmetry analysis. A broad variety of physical, chemical, and biological systems will be used as examples. Knowledge of partial differential equations (at the level of MATH 4581 or PHYS 6124) is required. The continuum mechanics course PHYS 4421 and introduction to nonlinear dynamics PHYS 4267, although not pre-requisites, will provide helpful background.

Introduction to Continuum Physics - Roman Grigoriev or Predrag Cvitanović
PHYS 4421 The course aims to redress the balance by offering a modern, unified introduction to the basic concepts and phenomenology of continuous systems. The course is intended for physics, biology, math, engineering and geophysics advanced undergraduates, starting graduate students. The mathematical prerequisites are modest and are developed further as the need arises.

Group Theory - Predrag Cvitanović
PHYS 7143 - Foundations of group representation theory with applications in atomic, molecular, nuclear, and solid state physics.

Quantum Field Theory - Predrag Cvitanović
PHYS 7147 - Introduction to quantum field theory, with an emphasis in quantum electrodynamics. Second quantization, Dirac equation, Feynman diagrams, quantum electrodynamics, electro-weak interactions.

Fall 2007

TR 09:35-10:55, Howey Physics S104 (not confirmed)
Nonlinear dynamics: Chaos, and what to do about it - Predrag Cvitanović
PHYS 7224 - advanced graduate: this year the emphasis is on chaotic dynamics, evolution operator formalism and chaotic dynamics theory of non-equilibrium processes. Part I of 2-semester sequence, with quantum chaos to be taken up Fall 2008. It will be easier going for those who have taken PHYS 4267/6268 Nonlinear Dynamics & Chaos , but that is not a prerequisite. Text: Chaos: Classical and Quantum (webbook by P. Cvitanović et al.)

Web courses

Chaos: Classical and Quantum (Cvitanović et al)

Links to other nonlinear courses on the web

Student projects

(currently not updated)

Other study information

Teaching; how good are our competitors?

svn: $Author: predrag $ - $Date: 2008-12-05 17:46:07 -0500 (Fri, 05 Dec 2008) $