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09/09/2013

92e rencontre entre mathématiciens et physiciens théoriciens : Entropie en mathématiques et en physique

IRMA, 26-28 septembre 2013

 

"La 92e rencontre entre mathématiciens et physiciens théoriciens aura pour thème : Entropie en mathématiques et en physique.

The 92th Encounter between Mathematicians and Theoretical Physicists will take place at Institut de Recherche Mathématique Avancée (University of Strasbourg and CNRS) on September 26-28, 2013. The theme will be : "Entropy in Mathematics and in Physics".

Organizers : Nicolas Juillet and Athanase Papadopoulos

The speakers are :

- Gérard Besson (Grenoble) 
- Freddy Bouchet (Lyon) 
- Mauro Carfora (Pavie) 
- Djalil Chafaï (Paris) 
- Stéphane De Gérando (Paris) 
- Rémi Peyre (Nancy) 
- Anders Karlsson (Genève) 
- Christian Léonard (Nanterre) 
- Christian Maes (Leuven) 
- Gabriel Rivière (Lille) 
- Nessim Sibony (Orsay) 
- Karl-Theodor Sturm (Bonn) 
- Constantin Vernicos (Montpellier)

The talks will be in English. Some of the talks will be survey talks intended for a general audience.

Graduate students and young mathematicians are welcome. Registration is required (and free of charge) at this link. Hotel booking can be asked for through the registration link.

For practical and other questions please contact the organizers : 
- Nicolas Juillet : nicolas.juillet@math.unistra.fr 
- Athanase Papadopoulos : athanase.papadopoulos@math.unistra.fr

The following programm is still subjet to modification :

 

PROGRAMME


26 septembre 2013


09h30

Nessim Sibony - Orsay

Entropy in holomorphic dynamics.

The entropy of a dynamical system is a number measuring how much the system is chaotic. More precisely it measures the growth of the number of orbits one can distinguish before time n, at every scale. It is an important invariant at the center of the theory of dynamical systems.One of the goals is to construct an invariant measure on the most chaotic part, to study its geometry,and the rates of expansion-contraction (Lyapounov-exponents). The abstract theory is well estabished, Oseledec, Pesin...To decide wether it applies in concrete examples is another story, most of the time out of reach. I will first recall Bowen's definition of entropy. Then I will discuss the notion in the context of holomorphic or meromorphic maps between compact Kähler manifolds.In particular it's relation with dynamical degrees, which describe the average expansion. This is strongly related to works by Gromov and Yomdin. Complex dynamics is a remarkable case where entropies can be computed explicitly in many situations.Measures of maximal entropy can be constructed, although the systems are not uniformly hyperbolic in general. I will also develop a notion of entropy for laminations by hyperbolic Riemann surfaces. In that case, we use the hyperbolic time. The finiteness of entropy is related to the transverse Hölder continuity of the Poincaré metric. The theory can be extended to cover the case of singular foliations on complex surfaces. The lecture is based on Joint works with T.C Dinh and V.A. Nguyen.

 
 

10h30

 

Coffe break

 
 

11h00

Rémi Peyre - Nancy

Free energy functional in an optimal-transportation setting

We consider a toy model for gravitational spontaneous symmetry breaking: in this model, the distribution of matter evolves according to a first-order equation, with a short-range attractive force which tends to make matter collapse, versus a diffusion term which tends to homogeneize density. It can be shown that this evolution is tantamount to the gradient flow of the free energy (hence involving entropy) in some infinite-dimensional Riemannian manifold defined in terms of “optimal transportation”—all of that shall be explained in detail.

Hence our goal is to understand the behaviour of the free energy functional, in particular near the critical point (that is, when diffusion is just sufficient to prevent spontaneous symmetry breaking). We will show that the critical exponant of the activation energy is $(3-n/2)_+$, $n$ being the dimension of the space. This involves finding sharp estimates, both above and below (which is rather unusual), on the entropy of the system.

 
 

12h05

 

Lunch

 
 

15h30

Anders Karlsson - Genève

A heat kernel approach to tree entropy

The number of spanning trees of graphs is an invariant of interest in electrical networks, statistical physics, theoretical chemistry and mathematics. I will discuss the asymptotics of the number of spanning trees in families of graphs, especially discrete tori. The constant in the lead term is called the tree entropy. This number as well as other constants in the asymptotics have interest in number theory: they are expressed in terms of certain Mahler measures, zeta functions, modular forms, and their special values. When there is a limiting continuous torus, its determinant of Laplacian appears. Based on joint work with G. Chinta and J. Jorgenson. I will also mention recent works by F. Friedli and J. Louis.

 
 

16h30

 

Coffe break

 
 

17h00

Christian Léonard - Nanterre

TBA
 
 

18h30

 

Dinner - restaurant "Le petit bois vert" (petite France quarter). We start from the math institute at 18:00.

 

27 septembre 2013


09h30

Karl-Theodor Sturm - Bonn

TBA
 
 

10h30

 

Coffe break

 
 

11h00

Freddy Bouchet - Lyon

Large deviations and averaging for stochastic partial differential equations describing atmosphere dynamics.

We consider the formation of large scale structures (zonal jets and vortices), in planetary atmosphere turbulence, within the barotropic quasi-geostrophic equations (the Ising model of geophysical turbulence). This model includes as a special case the 2D stochastic Navier-Stokes equations. We develop a theory based on tools of statistical physics (large deviations, averaging, kinetic theory) and field theory (instantons). We study the limit of a time scale separation between inertial dynamics on one hand, and the effect of forces and dissipation on the other hand. Using a kinetic theory approach, we prove that stochastic averaging can be performed explicitly in this problem, which is unusual in turbulent systems. It is then possible to integrate out all fast turbulent degrees of freedom, and to get explicitly an equation that describes the slow evolution of zonal jets. For some range of parameters, the dynamics has several attractors, with extremely rare and abrupt transition from one attractor to another. Using large deviation results, derived either from path integrals or from generalization of Freidlin--Wentzell theory, we compute the transition rates and transition trajectories between two attractors.

 
 

12h00

 

Lunch

 
 

14h00

Stéphane De Gérando - Paris

Introduction au Labyrinthe du temps.

Exposé de 30 minutes.

Le labyrinthe du temps est à la fois une œuvre dynamique (``work in continuous progress") poly-artistique et technologique (image, son…) et un projet de recherche en cours de développement. Stéphane de Gérando présentera l'oeuvre ainsi que des pistes pour des collaborations possibles avec des mathématiciens, sur le thème de cette pensée labyrinthique, fragmentation de la mémoire jusqu’au seuil entropique d’une œuvre chaotique ou « décomposée ». 

Stéphane de Gérando, auteur du Labyrinthe du temps est compositeur. Il enseigne la composition et les nouvelles technologies au Conservatoire du XIXe arrondissement de Paris, docteur HDR, Premier Prix et 3eme Cycle de composition du CNSMDP, ancien directeur du CFMI de Strasbourg (département Arts de l'UdS) et du département musique du CEFEDEM d'Aquitaine.

 
 

14h30

Constantin Vernicos - Montpellier

Volume entropy of Hilbert geometries and approximability of convex bodies
 
 

15h30

Gabriel Rivière - Lille

Eigenmodes of the wave equation, chaotic dynamical systems and entropy.

We will discuss some properties of stationary solutions of the wave equation on a bounded euclidean domain (or more generally on a compact manifold). In other words, we will be concerned with the properties of the eigenfunctions of the Laplacian. Our main focus will be on domains for which the "free motion" of a particle (the geodesic flow) enjoys chaotic properties. We will explain how this chaotic feature influences the properties of the eigenfunctions in the high frequency limit. Finally, we will de! scribe some recent progresses have that been obtained on these questions thanks to the use of the so-called Kolmogorov-Sinai entropy.

 
 

16h30

 

Coffee break

 
 

17h00

Djalil Chafaï - Paris

Some probabilistic aspects of Boltzmann entropy.
 
 

18h30

 

Reception at the city hall of Strasbourg. We start at 18:00 from the place of the conference.

 

28 septembre 2013


09h00

Mauro Carfora - Pavia

The Ubiquitous Entropy : from Geometrical Enumeration to Quantum Field Theory

I will review the ubiquitous and somewhat unexpected role that
entropy plays in a number of geometrical and physical situations.

 
 

10h00

Gérard Besson - Grenoble

TBA

 

 
 

11h00

 

Coffee break

 
 

11h30

Christian Maes - Leuven

Nonequilibrium entropies

In contrast to the quite unique entropy concept useful for systems in (local) thermodynamic equilibrium, there is a variety of quite distinct nonequilibrium entropies, reflecting different physical points. We disentangle these entropies as they relate to heat, fluctuations, response, time-asymmetry, variational principles, monotonicity, volume contraction or statistical forces. However, not all of those extensions yield state quantities as understood thermodynamically. At the end we sketch how

aspects of dynamical activity can take over for obtaining an extended Clausius relation.

Dernière mise à jour le 6-09-2013"

 

Lire la suite : 

http://www-irma.u-strasbg.fr/article1334.html

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