ICFP Stat Physics 2015
From Werner KRAUTH
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| Revision as of 14:05, 7 October 2015 Werner (Talk | contribs) (→Lecture: Exact computations in the two-dimensional Ising model (Kac-Ward)) ← Previous diff |
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| =Week 2: Phase transitions, general theorems= | =Week 2: Phase transitions, general theorems= | ||
| == Lecture: Hard spheres in 2d, 1d: virial, depletion, absence of transition.== | == Lecture: Hard spheres in 2d, 1d: virial, depletion, absence of transition.== | ||
| - | ==Tutorial: Presence / Absence of transition in 1d systems. Kittel model, etc | + | ==Tutorial: Presence / Absence of transition in 1d systems. Kittel model, etc== |
| =Week 3: Classical Ising model= | =Week 3: Classical Ising model= | ||
Revision as of 14:11, 7 October 2015
This is the home page of the course "Statistical Physics: Concepts and Applications", that I teach this year for the first time to the ICFP first-year Master students at ENS. Tutorial sessions are assured by Maurizio Fagotti, JRC laureate researcher at the ENS Department of Physics, and world-wide expert in Statistical Mechanics.
Contents |
Week 1: The power of statistical physics
Lecture: The power of statistics (Mathematical aspects).
Tutorial: Convolution, central limit theorem, Levy distributions.
Week 2: Phase transitions, general theorems
Lecture: Hard spheres in 2d, 1d: virial, depletion, absence of transition.
Tutorial: Presence / Absence of transition in 1d systems. Kittel model, etc
Week 3: Classical Ising model
Lecture: Exact computations in the two-dimensional Ising model (Kac-Ward)
preliminary lecture notes of Week 3 CM - Kac-Ward solution
