The SEMPARIS seminar webserver hosts annoucements of all seminars taking place in Paris area, in all topics of physics, mathematics and computer science. It allows registered users to receive a selection of announcements by email on a daily or weekly basis, and offers the possibility to archive PDF or Powerpoint files, making it available to the scientific community.   [ More information ]

 Upcoming Seminars [Next 30 ] [ scheduler view ]

 Monday 25 November 2019, 10:30 at IHES, Centre de conférences Marilyn et James Simons ( Nokia-IHES Workshop ) MATH-IHES (TBA) hep-th Stéphane Mallat ( Collège de France ) Multiscale Models for Image Classification and Physics with Deep Networks Abstract: Approximating high-dimensional functionals with low-dimensional models is a central issue of machine learning, image processing, physics and mathematics. Deep convolutional networks are able to approximate such functionals over a wide range of applications. This talk shows that these computational architectures take advantage of scale separation, symmetries and sparse representations. We introduce simplified architectures which can be anlalyzed mathematically. Scale separations is performed with wavelets and scale interactions are captured through phase coherence. We show applications to image classificaiton and generation as well as regression of quantum molecular energies and modelization of turbulence flows.

 Monday 25 November 2019, 10:45 at LPTMC, Jussieu, tower 13-12, room 5-23 SEM-LPTMC (Séminaire du Laboratoire de Physique Théorique de la Matière Condensée) cond-mat.mes-hall Janos Asboth ( Wigner Research Centre for Physics & Budapest University, Hungary ) Topological phases of quantum walks and how they can be detected Abstract: Quantum walks are versatile toy models for periodically driven systems in the nonperturbative regime of low-frequency and high-intensity drive. In this regime, systems can have "hidden" topological invariants: they can host topologically protected edge states even if their effective Hamiltonian is topologically trivial. I will discuss schemes we developed [1,2] to measure the bulk topological invariants, including the "hidden" ones, directly, which also work in the case with spatial disorder, and which have recently been measured in quantum walk experiments[3,4]. [1]: T Rakovszky, JK Asbóth, A Alberti: Detecting topological invariants in chiral symmetric insulators via losses, Phys Rev B 95 (20), 201407 [2]: B Tarasinski, JK Asbóth, JP Dahlhaus: Scattering theory of topological phases in discrete-time quantum walks, Phys Rev A 89 (4), 042327 [3]: Zhan, X., Xiao, L., Bian, Z., Wang, K., Qiu, X., Sanders, B.C., Yi, W. and Xue, P.: Detecting topological invariants in nonunitary discrete-time quantum walks. Phys Rev Lett, 119(13), 130501 [4]: S Barkhofen, T Nitsche, F Elster, L Lorz, A Gábris, I Jex, C Silberhorn: Measuring topological invariants in disordered discrete-time quantum walks, Phys Rev A 96 (3), 033846

 Monday 25 November 2019, 11:00 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://www.ipht.fr/Phocea/Vie_des_labos/Seminaires/index.php?id=993973 ) IPHT-PHM (Séminaire de physique mathématique) math-ph Rob Klabbers ( Stockholm ) Rationalising Inozemtsev's elliptic spin chain Abstract: In the world of elliptic integrability Inozemtsev's spin chain is quite a strange bird: this model of long-range-interacting electrons with elliptic interactions links the Heisenberg XXX spin chain, the Haldane-Shastry spin chain and the elliptic CSM model and is exactly solvable, but whether it is integrable remains an open question.In its current form the solution of this elliptic spin chain looks complicated and does not promote further investigation. In an effort to change this, I will present a reparametrisation of this solution in the form of an extended Bethe ansatz that simplifies things considerably: most importantly, I will show that the M-particle energy can be written in (quasi-)additive form and the Bethe ansatz equations can be written in a familiar form. Moreover, written in the right variables the spectral problem becomes fully rational.

 Monday 25 November 2019, 11:30 at IHES, Centre de conférences Marilyn et James Simons ( Nokia-IHES Workshop ) MATH-IHES (TBA) hep-th Jakob Hoydis ( Nokia Bell Labs-FR/Paris-Saclay ) Recent Progress in End-to-End Learning for the Physical Layer Abstract: End-to-end learning is one of the most promising applications of machine learning for the physical layer of communication systems. I will provide a tutorial introduction to the topic and will discuss recent results as well as future research direction.

 Monday 25 November 2019, 13:30 at LPENS, Conf IV LPA (Séminaire du laboratoire Pierre Aigrain) cond-mat Benjamin Sacépé ( Institut Néel, Grenoble ) Helical quantum Hall phase in graphene on SrTiO3 Abstract: Helical edge states in topological insulators and semiconducting nanowires are attracting a tremendous amount of attention due to the prospect of inducing and manipulating Majorana states in superconducting hybrid devices. However, most of the topological systems studied so far for Majorana physics remain obscured by material issues such as bulk parasitic bulk conduction or inhomogeneous chemical potential. In this talk I will present a new type of topological insulator constructed on the basis of the quantum Hall effect of graphene. I will show that the ground state of charge neutral graphene under perpendicular magnetic field is a quantum Hall topological insulator with a ferromagnetic order that exhibits spin-filtered, helical edge channels. The topological phase emerges in the graphene zeroth Landau level via a suitable screening of the Coulomb interaction by a SrTiO3 high-k dielectric substrate. We observed robust helical edge transport emerging at a magnetic field as low as 1 T and withstanding temperatures up to 110 K over micron-long distances. This new and versatile graphene platform opens up a promising avenue for topological superconductivity.

 Monday 25 November 2019, 14:00 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-STA (Séminaire de Physique Statistique, CEA/Saclay) cond-mat Natan Andrei ( Rutgers University ) Quantum Work of Optical Lattices Abstract: A typical quench experiment consists of a sudden release of a cold atomic gas from an optical lattice. The local properties of the quench dynamics have been extensively studied, however the global properties of this non-equilibrium quantum systems have received less attention. Here we study some aspects of global non-equilibrium behavior by calculating the amount of work done by the quench as measured through the work distribution function. Using Bethe Ansatz techniques we determine the Loschmidt echo and from it the work distribution function of a gas of bosons initially held in a deep periodic potential and subsequently either the potential is completely removed (process described by the Lieb-Liniger model) or lowered (process described by the Sine-Gordon model). We find the average work and its universal edge exponents at threshold and determine the long time decay of the Loshcmidt echo. We highlight striking differences caused by the interactions as well as the changes in the geometry of the system. We study repulsive as well as attractive interactions. In particular we examine the prominent role played by bound states in the work distribution and show that, with low probability, they allow for negative work to be extracted from the quench.

 Monday 25 November 2019, 14:00 at IHES, Centre de conférences Marilyn et James Simons ( Nokia-IHES Workshop ) MATH-IHES (TBA) hep-th Michael Douglas ( Simons Center in Geometry and Physics, SUNY ) How will we do Mathematics in 2030? Abstract: We make the case that over the coming decade, computer assisted reasoning will become far more widely used in the mathematical sciences. This includes interactive and automatic theorem verification, symbolic algebra, and emerging technologies such as formal knowledge repositories, semantic search and intelligent textbooks. After a short review of the state of the art, we survey directions where we expect progress, such as mathematical search and formal abstracts, developments in computational mathematics, integration of computation into textbooks, and organizing and verifying large calculations and proofs. For each we try to identify the barriers and potential solutions.

 Monday 25 November 2019, 15:00 at IHES, Centre de conférences Marilyn et James Simons ( Nokia-IHES Workshop ) MATH-IHES (TBA) hep-th Philippe Jacquet ( INRIA, Nokia Bell Labs ) Al vs Information Theory and Learnability Abstract: We will first give a quick review of how information theory impacts AI, in particular how a complex system can evolve into a more complex system while satisfying the laws of information theory. Second we will investigate the problem of learnability. Deep neural networks are sometimes uncapable of learning surprisingly simple problems, we will try to hint a characterization of those problems.

 Tuesday 26 November 2019, 11:00 at CPHT, Salle Louis Michel, CPHT, Ecole Polytechnique SEM-CPHT (Séminaire du CPHT) hep-th Laurentiu Rodina ( IPhT, Saclay ) The Unique S-matrix Abstract: I will explore a surprising interplay between fundamental principles underlying scattering amplitudes: gauge invariance, IR and UV behavior, the color-kinematics duality, locality and unitarity. Surprisingly, unexpected combinations of these principles have unique solutions: the tree level scattering amplitudes of important massless theories. Two consequences stand out: the emergence of unitarity from other principles, and the possibility of an IR/UV duality.

 Tuesday 26 November 2019, 11:00 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://www.ipht.fr/Phocea/Vie_des_labos/Seminaires/index.php?id=993975 ) IPHT-GEN (Séminaire général du SPhT) physics Patrice Koehl ( UC Davis and IPHT ) Optimal transport at finite temperature Abstract: Optimal transport (OT) has become a discipline by itself that offers solutions to a wide range of theoretical problems in probability and mathematics. Despite its appealing theoretical properties, solving the OT problem involves the resolution of a linear program whose computational cost can quickly become prohibitive whenever the size of the problem exceeds a few hundred points. The recent introduction of entropy regularization, however, has led to the development of fast algorithms for solving an approximate OT problem. The successes of those algorithms have resulted in a popularization of the applications of OT in several applied fields such as imaging sciences and machine learning, and in data sciences in general. Problems remain, however, as to the numerical convergence of those regularized approximations towards the actual OT solution. In addition, the physical meaning of this regularization is unclear. In this talk, I will describe a novel approach to solving the discrete balanced and unbalanced OT problems using techniques adapted from statistical physics. I will illustrate applications of this framework to the problem of image comparison as well as to the problem of comparing three dimensional shapes.

 Tuesday 26 November 2019, 11:30 at LPTENS, LPTENS library STR-LPT-ENS-HE (Séminaire commun LPTENS/LPTHE) hep-th Aidan Chatwin-Davies ( KU Leuven ) Bulk Reconstruction Beyond the Entanglement Wedge Abstract: According to holographic subregion duality, the reduced CFT state on a boundary subregion is dual to the subregion's bulk entanglement wedge, and vice-versa. In sufficiently high dimensions, one can construct settings in which minimal 2-surfaces that are anchored to a given boundary subregion can reach parametrically far beyond the entanglement wedge. In particular, knowledge of the areas of all such 2-surfaces is sufficient to reconstruct the bulk metric in the region that they probe, and, in certain settings, these minimal 2-surface areas can be deduced from the expectation values of Wilson loops in the boundary subregion. This suggests that either the reduced CFT state encodes significant information about the bulk beyond the entanglement wedge, challenging conventional intuition about holographic subregion duality, or that the geometric computation of Wilson loop expectation values breaks down, even in very mild settings.

 Tuesday 26 November 2019, 14:00 at CPHT, Salle Louis Michel, CPHT SEM-CPHT (Séminaire du CPHT) hep-th Akash Jain ( University of Victoria ) Generalised global symmetries and magnetohydrodynamics Abstract: Generalised global symmetries are a generic feature of theories with topologically conserved charges. For certain physical theories, these allow for an entirely symmetry based reformulation of the low-energy physics in the hydrodynamic regime without making reference to the specific microscopics. In this talk, we will introduce some of these ideas in the concrete setting of magnetohydrodynamics (MHD), seen as a fluid with conserved "strings" (magnetic field lines). We will argue that MHD is described by a novel theory of superfluidity with a partially broken one-form symmetry. Time permitting, we will also comment on another application of generalised global symmetries to the theory of viscoelasticity. The talk is based on [1808.01939, 1811.04913, 1908.01175].

 Tuesday 26 November 2019, 14:00 at APC, 646A - Mondrian APC-TH (Seminar of the theory group of APC) gr-qc Pisisn Chen ( National Taiwan University ) Modified theories of gravity and their tests via gravitational waves Abstract: In this talk we will review some selected modified theories of gravity and study their cosmological and astrophysical implications. In particular, we investigate the quasi-normal modes (QNMs) for black hole solutions in the following modified gravity theories: the Palatini f(R) gravity, the EiBI gravity, a class of nonsingular black holes which can be treated as the vacuum solution of a family of conformal gravity theories, and the generalized energy- momentum squared gravity. The master equations describing the QNMs are derived, and the QNM frequencies are evaluated with the Wentzel-Kramers- Brillouin (WKB) method and the eikonal approximation. As expected, the QNM spectra of these modified black holes would deviate from their GR counterparts, indicating the possibility of testing these black hole solutions with the help of future gravitational wave detections.

 Tuesday 26 November 2019, 14:00 at LPTHE, library LPTHE-PPH (Particle Physics at LPTHE) hep-ph Yonit Hochberg ( Jerusalem ) New Ideas for Light Dark Matter

 Tuesday 26 November 2019, 14:15 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-PHM (Séminaire de physique mathématique) math-ph Y. Matsuo Affine Yangian and quantum toroidal algebra -- relation with integrability and application to AGT conjecture Abstract: In this talk, I first review the role of affine Yangian (AY) to prove AGT conjecture. I emphasize that the duality in the representation plays an essential role to prove the conjecture. I also explain that the connection with the integrability as the name of the algebra suggests. In the second part, if the time permits, I would like to explain my recent work on the corner vertex operator algebra. Some emphasis is put on the connection with the plane partition realization of the minimal models.

 Wednesday 27 November 2019, 11:30 at LPTENS, Scherk library (formerly LPTENS library) SEM-EXCEP (Séminaire exceptionel) gr-qc Pisin Chen ( National Taiwan University ) Hawking evaporation and the information loss paradox

 Wednesday 27 November 2019, 14:00 at LPENS, L363/365 LPA (Séminaire du laboratoire Pierre Aigrain) cond-mat Tracy Northrup ( Institut für Experimentalphysik, Universtität Innsbruck ) TBA

 Wednesday 27 November 2019, 14:15 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://www.ipht.fr/Phocea/Vie_des_labos/Seminaires/index.php?id=993968 ) IPHT-MAT (Séminaire de matrices, cordes et géométries aléatoires) hep-th Lorenzo Papini The BPS limit of rotating AdS black hole thermodynamics Abstract: In the last couple of years it has been proposed that the Bekenstein-Hawking entropy of rotating AdS$_d$ black holes ($4 \leq d \leq 7$) can be reproduced by extremizing the Legendre transform of a homogeneous function of chemical potentials subject to a complex constraint. In this seminar, I will provide a physical interpretation of these extremization principles, showing that in each dimension the entropy function coincides with the on-shell supergravity action when the BPS chemical potentials are obtained by taking a specific BPS limit of black hole thermodynamics. To perform the limit, one starts from finite temperature and reaches the extremal BPS black hole along a supersymmetric trajectory in the space of complexified solutions. We thus provide a generalization of the BPS limit proposed in [arXiv:1810.11442] to multicharge black holes and to every dimension $d$.

 Thursday 28 November 2019, 09:30 at LPENS, L361 LPA (Séminaire du laboratoire Pierre Aigrain) cond-mat Matthieu Jeannin ( LPENS, Paris, France ) TBA

 Thursday 28 November 2019, 11:00 at LPTHE, bibliothèque du LPTHE, tour 13-14, 4eme étage SEM-DARBOUX (Séminaire Darboux - physique théorique et mathématiques) hep-th|math Muriel Livernet ( IMJ ) TBA

 Thursday 28 November 2019, 16:00 at LPT, 114 LPT-PTH (Particle Theory Seminar of LPT Orsay) hep-ph Svetlana Fajfer ( Institut "Jožef Stefan Ljubljana ) Muon anomalous magnetic moment in the light of New Physics Abstract: The observed muon anomalous magnetic moment deviates from the Standard Model predictions at the level of 4 sigma. The discrepancy can be explained by the presence of New Physics. The simplest explanation assumes the existence of new scalar or gauge bosons. As an example of new scalars we consider scalar leptoquark contributions. In particular, a mechanism that calls for mixing of two scalar leptoquarks of the same electric charge through the interaction with the Higgs field, where the two leptoquarks separately couple to the quark-muon pairs of opposite chirality structures. Another example is a gauge boson which arrises in the U(1) extension of the SM. The parameter space of such a Z’ model is strongly constrained by the discrepancy between experimental result and theoretical prediction for the muon anomalous magnetic moment.

 Friday 29 November 2019, 10:00 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://courses.ipht.cnrs.fr/?q=fr/node/245 https://www.ipht.fr/Phocea/Vie_des_labos/Seminaires/index.php?id=993960 ) COURS (Cours) cond-mat Cristina Bena And Thierry Jolicoeur ( IPhT ) Topological Phases of Matter (4/6) Abstract: In this series of lectures we will give a broad view of topological systems, including topological insulators, quantum Hall effect, and topological superconductors. We will discuss the properties of Majorana states and other topological edge states in both one-dimensional and two-dimensional systems, as well as the techniques to study the formation of these states and their properties. \par Integer and fractional quantum Hall effects will be discussed notably using the composite fermion contruction of wavefunctions. We will describe fractional charge and statistics of the quantum Hall states and their effective field theoretic description. The pfaffian state proposed to describe the elusive $\nu =5/2$ state will be also decribed.\\ The program of the lectures will include: \\ 1- Topology in solid state systems; Examples of topological materials and topological edge states (e.g. Majorana) \\ 2- Analytical and numerical techniques to derive the formation of edge states \\ 3- 2D electronic systems, Landau levels, integer and fractional quantum Hall effect \\ 4- The Laughlin wavefunction, more fractions composite fermions \\ 5- Multicomponent systems: spins and interlayer phase coherence, quantum Hall ferromagnetism \\ 6- The pfaffian state and its excitations. Attachments: 2019-2020.pdf (4458798 bytes) topology.pdf (8801673 bytes)

 Friday 29 November 2019, 11:30 at APC, Amphithéâtre Pierre Gilles de Gennes APC-COLLOQUIUM (Colloquium de l'APC) astro-ph Vitor Cardoso ( CERN & Lisbon, CENTRA ) Black holes as a physics laboratory Abstract: The LIGO/Virgo gravitational wave detections, the imaging of a black hole shadow by long- baseline radio interferometry, and ever more precise observations across all electromagnetic wavelengths have opened an unprecedented window onto gravity at its strongest. Black holes are the simplest, most compact, and physically elusive macroscopic objects in the Universe and play a central role in this new era in physics and astronomy. In this talk, I will describe how black holes can be used to understand foundational questions: are gravitons massless? Are black holes the simplest possible macroscopic objects? do event horizons and black holes really exist, or is their formation halted by some as-yet unknown mechanism? Do singularities arise in our universe as the outcome of violent collisions? Can black holes inform us about the nature of the elusive dark matter?

 Friday 29 November 2019, 14:00 at LPTHE, library LPTHE-PPH (Particle Physics at LPTHE) hep-ph Hua-Sheng Shao ( LPTHE ) Precise predictions for di-Higgs gluon-fusion production at N3LO QCD

 Monday 2 December 2019, 10:00 at IPHT, Amphi Claude Bloch, Bât. 774 SOUTEN-HDR (Soutenance d'Habilitation à Diriger des Recherches) physics Jérémie Bouttier ( IPhT ) Cartes planaires et partitions aléatoires Abstract: L'exposé présentera quelques aspects du mémoire d'habilitation, qui est lui-même une synthèse des travaux de recherche que j'ai effectués entre 2005 et 2019. Le mémoire s'organise en quatre chapitres. Les trois premiers portent sur les cartes planaires aléatoires. Le chapitre 1 s'intéresse à leurs propriétés métriques : à partir d'une bijection générale entre cartes et mobiles, on calcule la fonction à trois points des quadrangulations, avant d'évoquer le lien avec les fractions continues. Le chapitre 2 présente la décomposition en tranches, une approche bijective unifiée qui s'applique notamment aux cartes irréductibles. Le chapitre 3 a pour sujet le modèle de boucles O(n) sur les cartes planaires : par une décomposition combinatoire récursive on obtient le diagramme de phase, puis on étudie les statistiques d'emboîtements entre boucles. Le chapitre 4 porte quant à lui sur les partitions aléatoires et processus de Schur, en allant des pavages de dominos pentus aux systèmes fermioniques.

 Monday 2 December 2019, 10:45 at LPTMC, campus Jussieu, tower 13-12, 5th floor, room 523 SEM-LPTMC (Séminaire du Laboratoire de Physique Théorique de la Matière Condensée) cond-mat.mes-hall Jacopo De Nardis ( Ghent University ) TBA

 Monday 2 December 2019, 13:30 at LPENS, Conf IV LPA (Séminaire du laboratoire Pierre Aigrain) cond-mat Yann Gallais ( MPQ, Université Paris Diderot, Paris ) TBA

 Monday 2 December 2019, 14:00 at LPTM, 4.13 St Martin II SEM-LPTM-UCP (Seminaires du LPTM , Universite de Cergy Pontoise) math-ph David Metivier ( Los Alamos National Laboratory, CNLS \& T-4, New Mexico, USA ) Efficient Polynomial Chaos Expansion for Uncertainty Quantification in Power Systems Abstract: Growing uncertainty from renewable energy integration and distributed energy resources motivate the need for advanced tools to quantify the effect of uncertainty and assess the risks it poses to secure system operation. In general, Uncertainty Quantification (UQ) methods are used in complex systems research to give probabilistic guarantees. I will introduce the context of this work, as well as the Polynomial chaos expansion (PCE) method that has been recently proposed as a tool for UQ in Power Systems. The method produces results that are highly accurate, but are computationally challenging to scale to large systems. We propose a modified algorithm based on PCE and using the system sparsity with significantly improved computational efficiency while retaining the desired high level of accuracy. In an example, we show how to solve the so called chance constrained power flow problem, e.g. we need a solution such that the power transmitted trough the lines should be lower than some safe value 99 percent of the time.

 Tuesday 3 December 2019, 10:00 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://courses.ipht.cnrs.fr/?q=fr/node/245 ) COURS (Cours) cond-mat Cristina Bena And Thierry Jolicoeur ( IPhT ) Topological Phases of Matter (5/6) Abstract: In this series of lectures we will give a broad view of topological systems, including topological insulators, quantum Hall effect, and topological superconductors. We will discuss the properties of Majorana states and other topological edge states in both one-dimensional and two-dimensional systems, as well as the techniques to study the formation of these states and their properties. \par Integer and fractional quantum Hall effects will be discussed notably using the composite fermion contruction of wavefunctions. We will describe fractional charge and statistics of the quantum Hall states and their effective field theoretic description. The pfaffian state proposed to describe the elusive $\nu =5/2$ state will be also decribed.\\ The program of the lectures will include: \\ 1- Topology in solid state systems; Examples of topological materials and topological edge states (e.g. Majorana) \\ 2- Analytical and numerical techniques to derive the formation of edge states \\ 3- 2D electronic systems, Landau levels, integer and fractional quantum Hall effect \\ 4- The Laughlin wavefunction, more fractions composite fermions \\ 5- Multicomponent systems: spins and interlayer phase coherence, quantum Hall ferromagnetism \\ 6- The pfaffian state and its excitations. Attachments: 2019-2020.pdf (4458798 bytes)

 Tuesday 3 December 2019, 11:00 at CPHT, Salle Louis Michel SEM-CPHT (Séminaire du CPHT) hep-th Alejandra Castro ( Amsterdam ) New aspects of the nAdS2/nCFT1 correspondence Abstract: The linchpin of nAdS2/nCFT1 is the non-linear realization of symmetries, where the conformal symmetry of AdS2 is spontaneously broken and also broken by an anomaly. In this talk I'll discuss the corner of this correspondence that is relevant for the holographic description of the near-extremal Kerr black hole.

 seminars All Next Week This Week Today Tomorrow Upcoming Within a Week from series All ACFTA APC APC-COLLOQUIUM APC-TH BH-TOP BI-COSMO-IHP BI-SEM-IHP BIOPHYS-ENS BISEMINAIRE-MP COLLOQUIUM-ENS CONDMAT-ENS CONDMAT-THEO COSMO-P6 COURS COURS-FED COURS-IPHT COURS@IAP CPHT - PHDSEM CPHT PHYS MATH CPHT- BS CPHT-JOUR CPHT-LLR CPMC DISQUANT ESPCI-COLLOQUE ESPCI/PCT FCMP FORUM-ENS FOUNDPHYS GDT-MODSTO GQ GR-COSMO IAP-SEM IDRIS-SEM IHP-ALG IHPSTRMATH IMJ-AA IMJ-AUT IMJ-CHE IMJ-EAA IMJ-REP IMP-MATH-PHYS INST-ETE IPHT-DAP IPHT-GEN IPHT-HEP IPHT-MAT IPHT-PHM IPHT-SEM IPHT-STA IPN-THEO IPN-X IPNO-DR JOUR-CLUB LP(N/T)HE LPA LPENS-ACE LPNHE LPS-MAGN LPS-MAT-MOL LPS-VULG LPS/ENS LPT-COSM LPT-GEN LPT-LPTMS LPT-MAG LPT-PHYSMATH LPT-PTH LPTENS-HE LPTHE-DOC LPTHE-PPH LPTMS LPT_STAT MAG-SUPRA MAT-COND-GEN MATH-IHES MECA-STAT MOTFEYN MSC PART-PHYS PHEN-PART PHYS-ESPCI PLATEAU PMMH PT-IHES P^3 RENC-THEO RENORMALISATION S-LPTENS SAMM SCOPI SEM-BESSON SEM-CPHT SEM-CSNSM SEM-DARBOUX SEM-EXCEP SEM-FED SEM-GRECO SEM-GRECO-IAP SEM-IBPC SEM-ILP SEM-INFOR SEM-INSP SEM-LAL SEM-LKB SEM-LLR SEM-LPT SEM-LPTENS SEM-LPTHE SEM-LPTM-UCP SEM-LPTMC SEM-LPTMS SEM-LUTH SEM-PHYS-ENS SEM-PMMH SEM-POINCA SEM-UPR5 SOUTEN-HDR SOUTEN-TH SPEC-LARSIM SPEC-SEM STR-LPT-ENS-HE STR-LPTHE STRINT TH-JEUX TH-MAT-COND TRANSPORT TRI-SEMINAIRE WG-EXPTH-LPN/THE WORK-CONF at institute All APC CDF CITEU CPHT CSNSM CURIE DPT-PHYS-ENS ENPC ESPCI ESPCI/UPR5 GRETIA IAP IBPC IDRIS IHES IHP IM-JUSSIEU-PRG IMPMC INSP IPHT IPN LAL LARSIM LKB LLR LMPT LPA LPENS LPMA LPNHE LPNHE-GR-TH LPP LPS-ORSAY LPS/ENS LPT LPTENS LPTHE LPTM LPTMC LPTMS LUTH MSC OBSPARIS PCT/ESPCI PMMH SAMM SPEC UPMC in subject All CoRR -- Computing Research Repository CoRR.AI -- Artificial Intelligence CoRR.AR -- Architecture CoRR.CC -- Computational Complexity CoRR.CE -- Computational Engineering CoRR.CG -- Computational Geometry CoRR.CL -- Computation and Language CoRR.CR -- Cryptography and Security CoRR.CV -- Computer Vision and Pattern Recognition CoRR.CY -- Computers and Society CoRR.DB -- Databases CoRR.DC -- Distributed, Parallel, and Cluster Computing CoRR.DL -- Digital Libraries CoRR.DM -- Discrete Mathematics CoRR.DS -- Data Structures and Algorithms CoRR.GL -- General Literature CoRR.GR -- Graphics CoRR.GT -- Computer Science and Game Theory CoRR.HC -- Human-Computer Interaction CoRR.IR -- Information Retrieva CoRR.IT -- Information Theory CoRR.LG -- Learning CoRR.LO -- Logic in Computer Science CoRR.MA -- Multiagent Systems CoRR.MM -- Multimedia; CoRR.MS -- Mathematical Software CoRR.NA -- Numerical Analysis CoRR.NE -- Neural and Evolutionary Computing CoRR.NI -- Networking and Internet Architecture CoRR.OH -- Other CoRR.OS -- Operating Systems CoRR.PF -- Performance CoRR.PL -- Programming Languages CoRR.RO -- Robotics CoRR.SC -- Symbolic Computation CoRR.SD -- Sound CoRR.SE -- Software Engineering astro-ph -- Astrophysics cond-mat -- Condensed Matter cond-mat.dis-nn -- Disordered Sys. and Neural Networks cond-mat.mes-hall -- Mesoscopic Sys. and Q.Hall Effect cond-mat.mtrl-sci -- Materials Science cond-mat.other -- Other cond-mat.soft -- Soft Condensed Matter cond-mat.stat-mech -- Statistical Mechanics cond-mat.str-el -- Strongly Correlated Electrons cond-mat.supr-con -- Superconductivity gr-qc -- General Relativity and Quantum Cosmology hep-ex -- High Energy Physics - Experiment hep-lat -- High Energy Physics - Lattice hep-ph -- High Energy Physics - Phenomenology hep-th -- High Energy Physics - Theory math -- Mathematics math-ph -- Mathematical Physics math.AC -- Commutative Algebra math.AG -- Algebraic Geometry math.AP -- Analysis of PDEs math.AT -- Algebraic Topology math.CA -- Classical Analysis and ODEs math.CO -- Combinatorics math.CT -- Category Theory math.CV -- Complex Variables math.DG -- Differential Geometry math.DS -- Dynamical Systems math.FA -- Functional Analysis math.GM -- General Mathematics math.GN -- General Topology math.GR -- Group Theory math.GT -- Geometric Topology math.HO -- History and Overview math.KT -- K-Theory and Homology math.LO -- Logic math.MG -- Metric Geometry math.MP -- Mathematical Physics math.NA -- Numerical Analysis math.NT -- Number Theory math.OA -- Operator Algebras math.OC -- Optimization and Control math.PR -- Probability math.QA -- Quantum Algebra math.RA -- Rings and Algebras math.RT -- Representation Theory math.SG -- Symplectic Geometry math.SP -- Spectral Theory math.ST -- Statistics nlin -- Nonlinear Sciences nlin.AO -- Adaptation and Self-Organizing Systems nlin.CD -- Cellular Automata and Lattice Gases nlin.CG -- Chaotic Dynamics nlin.PS -- Exactly Solvable and Integrable Systems nlin.SI -- Pattern Formation and Solitons nucl-ex -- Nuclear Experiment nucl-th -- Nuclear Theory physics -- Physics physics.acc-ph -- Accelerator Physics physics.ao-ph -- Atmospheric and Oceanic Physics physics.atm-clus -- Atomic and Molecular Clusters physics.atom-ph -- Atomic Physics physics.bio-ph -- Biological Physics physics.chem-ph -- Chemical Physics physics.class-ph -- Classical Physics physics.comp-ph -- Computational Physics physics.data-an -- Data Analysis physics.ed-ph -- Physics Education physics.flu-dyn -- Fluid Dynamics physics.gen-ph -- General Physics physics.geo-ph -- Geophysics physics.hist-ph -- History of Physics physics.ins-det -- Instrumentation and Detectors physics.med-ph -- Medical Physics physics.optics -- Optics physics.plasm-ph -- Plasma Physics physics.pop-ph -- Popular Physics physics.soc-ph -- Physics and Society physics.space-ph -- Space Physics q-bio -- Quantitative Biology qbio.BM -- Biomolecules qbio.CB -- Cell Behavior qbio.GN -- Genomics qbio.MN -- Molecular Networks qbio.NC -- Neurons and Cognition qbio.OT -- Other qbio.PE -- Populations and Evolution qbio.QM -- Quantitative Methods qbio.SC -- Subcellular Processes; Tissues and Organs qbio.TO -- Tissues and Organs quant-ph -- Quantum Physics with field Speaker Title Abstract Subject matching

[ Postscript Poster | PDF Poster | RSS Thread | ICal Format ]

You are invited to subscribe to SEMPARIS mailing lists in order to receive selected announcements by email.

 [ Annonces ]    [ Abonnements ]    [ Archive ]    [ Aide ]    [ JavaScript requis ] [ English version ]