Les vendredis 9, 16, 23, 30 janvier et 6, 13 février 2015 à 10h auront lieu des cours de physique théorique agréés par l'École doctorale de physique en Île-de-France  ED PIF


Random matrices Bertrand Eynard (IPhT)

Random matrices have become an important tool in mathematics and physics.
Their universality laws are ubiquitous, from heavy nuclei energy levels, to string theory, statistical physics, nance, biology, and communication networks. They are also a manageable prototype of integrable systems, on which many ideas on integrability can be tested, understood or even predicted. They play an important role in combinatorics and statistical physics, and they generate Feynman graphs which provide a discrete model of two-dimensional gravity. They are closely related to the theory of orthogonal polynomials. And they play a key role in string theory, mirror symmetry and algebraic geometry.

The goal of these lectures is to introduce many of the techniques developed over several decades to handle random matrices. The plan is:
1. Introduction: what for and where do you encounter random matrices. The various ensembles
of random matrices, their applications, their universality.
2. Feynman graph expansion, notion of formal integrals, combinatorics of maps, statistical
physics, string theory.
3. Solving: the saddle point approximation, the Coulomb gas.
4. Loop equation method, link with algebraic geometry.
5. Orthogonal polynomials method, a window into the realm of integrability.
6. Beta matrix models.
7. Angular integrals.
8. More sophisticated examples: 2-matrix models, O(n) model, etc.


Informations pratiques :

Lieu: IPhT, CEA Saclay, Orme des Merisiers, Bât. 774, porte 1A Salle C. Itzykson
Accès: Navettes CEA du RER B Le Guichet vers CEA Ormes, toutes les 15 minutes de 8h à 9h45
ou bus publics Mobicaps 9 et 10, Albatrans 91.06 et 91.10
Renseignements: http://ipht.cea.fr ou ipht-lectures[a]cea.fr