Les deux révisions précédentes Révision précédente Prochaine révision | Révision précédente Prochaine révisionLes deux révisions suivantes |
mega:seminaire [2019/03/11 20:30] – [Calendrier 2018-2019] male | mega:seminaire [2019/05/06 11:05] – [Calendrier 2018-2019] male |
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* **Calendrier.** https://calendar.google.com/calendar/ical/qn5qq7dlmp38sc624s4png8umc%40group.calendar.google.com/public/basic.ics | * **Calendrier.** https://calendar.google.com/calendar/ical/qn5qq7dlmp38sc624s4png8umc%40group.calendar.google.com/public/basic.ics |
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* **Organisateurs 2017-2018.** | * **Organisateurs 2018-2019.** |
* Matinée des thésards : [[http://google.com/search?q=Raphaël+Butez+ ceremade|Raphaël Butez]] [[butez@ceremade.dauphine.fr]] et [[http://google.com/search?q=Nathan+Noiry+ ceremade|Nathan Noiry]] [[noirynathan@gmail.com]] | * Matinée des thésards : [[http://google.com/search?q=Nathan+Noiry+ ceremade|Nathan Noiry]] [[noirynathan@gmail.com]] |
* Exposés de l'après-midi : [[http://www.normalesup.org/~dumaz/|Laure Dumaz]] [[dumaz@ceremade.dauphine.fr]] et [[http://camillemale.com|Camille Male]] [[camille.male@math.u-bordeaux.fr]] | * Exposés de l'après-midi : [[http://www.normalesup.org/~dumaz/|Laure Dumaz]] [[dumaz@ceremade.dauphine.fr]] et [[http://camillemale.com|Camille Male]] [[camille.male@math.u-bordeaux.fr]] |
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{{ :mega:20141121_153039.jpg?400 |}} | {{ :mega:20141121_153039.jpg?400 |}} |
===== Prochaine séance ===== | ===== Prochaine séance ===== |
* Vendredi **15 Mars** salle 421 | * Vendredi **10 Mai**, salle 314 |
* mini cours par **[[https://www.di.ens.fr/~lelarge/|Marc Lelarge]]** //The cavity method for the spiked Wigner model//We consider the high-dimensional inference problem where the signal is a low-rank symmetric matrix which is corrupted by an additive Gaussian noise. Given a probabilistic model for the low-rank matrix, we compute the limit in the large dimension setting for the mutual information between the signal and the observations, as well as the matrix minimum mean squared error, while the rank of the signal remains constant. We unify and generalize a number of recent works on PCA, sparse PCA, submatrix localization or community detection by computing the information-theoretic limits for these problems in the high noise regime. \\ | * mini cours par **[[https://math.unice.fr/~dmitsche/|Dieter Mitsche]]** //Graphes aléatoires hyperboliques et trou spectral du Laplacien sur ces graphes//Random hyperbolic graphs (RHG) were proposed rather recently (2010) as a model of real-world networks. Informally speaking, they are like random geometric graphs where the underlying metric space has negative curvature (i.e., is hyperbolic). In contrast to other models of complex networks, RHG simultaneously and naturally exhibit characteristics such as sparseness, small diameter, non-negligible clustering coefficient and power law degree distribution. In the first part we will give a slow pace introduction to RHG, explain why they have attracted a fair amount of attention and then survey most of what is known about this promising infant model of real-world networks. In the second part we will explain more in detail the spectral gap, and time permitting, also other parameters of this model.\\ |
* 14h00-15h00: **[[http://math.univ-lyon1.fr/~lancien/|Cécilia Lancien]]** //Random correlation matrices: when are they with high probability classical or quantum?//Two observers performing binary outcome measurements on subsystems of a global system may obtain more strongly correlated results when they have a shared entangled quantum state than when they only have shared randomness. This well-known phenomenon of so-called Bell inequality violation can be precisely characterized mathematically. Indeed, being a classical or a quantum correlation matrix exactly corresponds to being in the unit ball of some tensor norms. In this talk, I will start with explaining all this in details. I will then look at the following problem: given a random matrix of size n, can one estimate the typical value of its "classical" and "quantum" norms, as n becomes large? For a wide class of random matrices, the answer is yes, and shows a separation between the two values. This result may be interpreted as follows: in a typical direction, the borders of the sets of classical and quantum correlations are separated away from each other. Based on joint work with Carlos Gonzalez-Guillen, Carlos Palazuelos and Ignacio Villanueva: "Random quantum correlations are generically non-classical", Ann. Henri Poincaré, 18(12):3793-3813 (2017).\\ | * 14h00-15h00: **[[https://davidgarciaz.wixsite.com/math|David Garcia Zelada]]** //Extremal particles of radial determinantal Coulomb gases//The Coulomb gases we are interested in can be understood as two-dimensional systems of negatively charged particles confined by a positively charged radial background. The distribution of the particles far from the origin will be seen to exhibit different behaviors. A simple argument of this fact will be given and the analogous random polynomial models will be also discussed. This is based on a joint work with Raphael Butez.\\ |
* 15h30-16h30: **[[http://pub.ist.ac.at/~dschroed/|Dominik Schröder]]** //Cusp Universality for Wigner-type Random Matrices.// For Wigner-type matrices, i.e. Hermitian random matrices with independent, not necessarily identically distributed entries above the diagonal, we show that at any cusp singularity of the limiting eigenvalue distribution the local eigenvalue statistics are universal and form a Pearcey process. Since the density of states typically exhibits only square root or cubic root cusp singularities, our work complements previous results on the bulk and edge universality and it thus completes the resolution of the Wigner-Dyson-Mehta universality conjecture for the last remaining universality type.\\ | * 15h30-16h30: **[[https://www-m7.ma.tum.de/bin/view/Analysis/SimoneWarzel|Simone Warzel]]** //Hierarchical random matrices and operators//Hierarchical random matrices (HM) serve as an more tractable simplification of power-law random band matrices (PRBM). As far as their (de)localisation properties are concerned, they are predicted to lie in the same universality class as PRBM. Their analysis is facilitated by a renormalization group which has deformed GOE matrices as one of its building blocks. In this talk, I will review results on HM. In particular, I will explain a SDE approach to a proof of local laws and delocalisation. This talk is based on joint works with P. Soosten.\\ |
===== Calendrier 2018-2019 ===== | ===== Calendrier 2018-2019 ===== |
* Vendredi **12 Octobre**, salle 201 | * Vendredi **12 Octobre**, salle 201 |
classical or quantum?//\\ | classical or quantum?//\\ |
* 15h30-16h30: **[[http://pub.ist.ac.at/~dschroed/|Dominik Schröder]]** //Cusp Universality for Wigner-type Random Matrices//\\ | * 15h30-16h30: **[[http://pub.ist.ac.at/~dschroed/|Dominik Schröder]]** //Cusp Universality for Wigner-type Random Matrices//\\ |
* pas de séance en **Avril** car Conférence du 15 au 19 à Luminy | * pas de séance en **Avril** car [[https://conferences.cirm-math.fr/1949.html|Conférence du 15 au 19 Avril au CIRM]] |
* Vendredi **10 Mai**, salle 314 | * Vendredi **10 Mai**, salle 314 |
* 14h00-15h00: **[[https://davidgarciaz.wixsite.com/math|David Garcia Zelada]]** ////\\ | * mini cours par **[[https://math.unice.fr/~dmitsche/|Dieter Mitsche]]** //Graphes aléatoires hyperboliques et trou spectral du Laplacien sur ces graphes//\\ |
* 15h30-16h30: **[[https://www-m7.ma.tum.de/bin/view/Analysis/SimoneWarzel|Simone Warzel]]** ////\\ | * 14h00-15h00: **[[https://davidgarciaz.wixsite.com/math|David Garcia Zelada]]** //Extremal particles of radial determinantal Coulomb gases//\\ |
| * 15h30-16h30: **[[https://www-m7.ma.tum.de/bin/view/Analysis/SimoneWarzel|Simone Warzel]]** //Hierarchical random matrices and operators//\\ |
* Vendredi **14 Juin**, salle 201 | * Vendredi **14 Juin**, salle 201 |
* 14h00-15h00: **[[https://cims.nyu.edu/~dubach/|Guillaume Dubach]]** ////\\ | * 14h00-15h00: **[[https://cims.nyu.edu/~dubach/|Guillaume Dubach]]** ////\\ |
===== Exposés 2017-2018 ===== | ===== Exposés 2017-2018 ===== |
| * **Organisateurs 2017-2018.** |
| * Matinée des thésards : [[http://google.com/search?q=Raphaël+Butez+ ceremade|Raphaël Butez]] [[butez@ceremade.dauphine.fr]] et [[http://google.com/search?q=Nathan+Noiry+ ceremade|Nathan Noiry]] [[noirynathan@gmail.com]] |
| * Exposés de l'après-midi : [[http://www.normalesup.org/~dumaz/|Laure Dumaz]] [[dumaz@ceremade.dauphine.fr]] et [[http://camillemale.com|Camille Male]] [[camille.male@math.u-bordeaux.fr]] |
* Vendredi **8 décembre** | * Vendredi **8 décembre** |
* 10h30-12h00: mini cours par **[[http://www.normalesup.org/~menard/|Laurent Ménard]]** sur la méthode des séries génératrices | * 10h30-12h00: mini cours par **[[http://www.normalesup.org/~menard/|Laurent Ménard]]** sur la méthode des séries génératrices |
===== Année 2016-2017 ===== | ===== Année 2016-2017 ===== |
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* **Organisateurs 2016-2017.** | * **Organisateurs 2016-2017.** |
* Matinée des thésards : [[http://google.com/search?q=RSéaphaël+Butez+ ceremade|Raphaël Butez]] [[butez@ceremade.dauphine.fr]] | * Matinée des thésards : [[http://google.com/search?q=RSéaphaël+Butez+ ceremade|Raphaël Butez]] [[butez@ceremade.dauphine.fr]] |
* Exposés de l'après-midi : [[http://www.normalesup.org/~dumaz/|Laure Dumaz]] [[dumaz@ceremade.dauphine.fr]] et [[http://camillemale.com|Camille Male]] [[camille.male@math.u-bordeaux.fr]] | * Exposés de l'après-midi : [[http://www.normalesup.org/~dumaz/|Laure Dumaz]] [[dumaz@ceremade.dauphine.fr]] et [[http://camillemale.com|Camille Male]] [[camille.male@math.u-bordeaux.fr]] |
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* Vendredi **2 Juin 2017**, salle 421 le matin, salle 314 l'après midi | * Vendredi **2 Juin 2017**, salle 421 le matin, salle 314 l'après midi |