Lectures

Lecture 1: Computation as a tool for discovery in physics

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• Real numbers and numerical precision
• Computational complexity for physicists

Lecture 2: Numerical methods for ordinary differential equations

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• C. Moler, Numerical Computing with Matlab (SIAM, Philadelphia, 2004).
• W. H. Press, S. A. Teukolsky, W. T. Vetterling, and B. P. Flannery: Numerical Recipes: The Art of Scientific Computing (CUP, Cambridge, 2007).

Lecture 3: Introduction to deterministic chaos

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• T. Tél and M. Gruiz, Chaotic Dynamics (CUP, Cambridge, 2006).

Lecture 4: Vibrational eigenmodes: From glasses to Fermi-Pasta-Ulam Problem

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Vibrational eigenmodes

• P. B. Allen and J. Kelner, Evolution of a vibrational wave packet on a disordered chain, Am. J. Phys. 66, 497 (1998). PDF.

• J. Fabian, Decay of localized vibrational states in glasses: A one-dimensional example, Phys. Rev. B 55, R3328 (1997). PDF

50th Anniversary of the Fermi-Pasta-Ulam Problem

• G. P. Berman and F. M. Izrailev, The Fermi-Pasta-Ulam problem: 50 years of progress, nlin.CD/0411062.

• P. Dauxois, M. Peyrard, and S. Ruffo, The Fermi-Pasta-Ulam "numerical experiment": history and pedagogical perspectives, nlin.PS/0501053.

• Focus issue of "Chaos": THE "FERMI-PASTA-ULAM" PROBLEM-THE FIRST 50 YEARS

• S. Flach, M. V. Ivanchenko, O. I. Kanakov, and K. G. Mishagin, Periodic orbits, localization in normal mode space, and the Fermi-Pasta-Ulam problem, Am. J. Phys. 76, 453 (2008). PDF.

• Fermi-Pasta-Ulam nonlinear lattice oscillations, T. Dauxois and S. Ruffo (2008), Scholarpedia, 3(8):5538.

Lecture 5: Introduction to Fourier analysis

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Lecture 6: Random Numbers, Random Walks, Monte Carlo, and all that

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Lecture 7: Monte Carlo Simulations in Statistical Physics

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Lecture 8: Computational Methods for Quantum Mechanics

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Lecture 9: Interdisciplinary Topics in Complex Systems

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