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 22 May 2017, 11:00 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-PHM (Séminaire de physique mathématique) math-ph Benjamin Basso ( LPTENS ) Gluing Ladders into Fishnets Abstract: I will explain how integrability and analyticity can be used to predict certain (fishnet type) Feynman integrals in planar massless $\phi^4$ theory. I will argue, in particular, that they lead to the conjecture that four point fishnet integrals can be written as determinants of ladder integrals.

 Monday 22 May 2017, 14:00 at LPTENS, LPTENS Library STR-LPT-ENS-HE (Séminaire commun LPTENS/LPTHE) hep-th Matt Lippert Holographic Sliding Stripes Abstract: Holographic models provide unique laboratories to investigate nonlinear physics of transport in inhomogeneous systems. We provide a detailed account of both DC and AC conductivities in a defect conformal field theory with spontaneous stripe order. The spatial symmetry is broken at large chemical potential and the resulting ground state is a combination of a spin and charge density wave. An infinitesimal applied electric field across the stripes will cause the stripes to slide over the underlying density of smeared impurities, a phenomenon which can be associated with the Goldstone mode for the spontaneously broken translation symmetry.

 Monday 22 May 2017, 14:00 at IHES, Centre de conférences Marilyn et James Simons ( Séminaire de Relativité Générale Mathématique ) MATH-IHES (TBA) hep-th Jan Sbierski ( Cambridge, UK ) The inextendibility of the Schwarzschild spacetime as a Lorentzian manifold with a continuous metric Abstract: The maximal analytic Schwarzschild spacetime is manifestly inextendible as a Lorentzian manifold with a twice continuously differentiable metric. In this talk I will describe how one proves the stronger statement that the maximal analytic Schwarzschild spacetime is inextendible as a Lorentzian manifold with a continuous metric. The investigation of low-regularity inextendibility criteria is motivated by the strong cosmic censorship conjecture in general relativity.

 Monday 22 May 2017, 14:30 at IHES, Amphithéâtre Léon Motchane ( Séminaire Géométrie et groupes discrets ) MATH-IHES (TBA) hep-th Olivier Guichard ( Université de Strasbourg ) L'adhérence de Zariski des représentations de Hitchin et des représentations positives Abstract: : Nous montrerons que, pour de telles représentations ρ : π1Σ → G, l'adhérence de Zariski de ρ(Γ) contient le SL2 principal sauf lorsque Γ est un sous-groupe monogène de π1Σ, auquel cas cette adhérence de Zariski est un sous-groupe abélien régulier connexe. Ceci entraîne la classification des adhérences de Zariski possibles puisque la classification des groupes algébriques contenant le SL2 principal est connue. Enfin dans le cas où Γ = π1Σ (ou un sous-groupe d'indice fini) les paramètres de Hitchin déterminent l'adhérence de ρ(Γ).

 Monday 22 May 2017, 15:30 at IHES, Centre de conférences Marilyn et James Simons ( Séminaire de Relativité Générale Mathématique ) MATH-IHES (TBA) hep-th Grigorios Fournodavlos ( Cambridge, UK ) Dynamics of the Einstein equations near a Schwarzschild singularity Abstract: We will discuss dynamical properties of the Schwarzschild interior, backwards and forwards (in time) with respect to the initial value problem for the Einstein vacuum equations.

 Monday 22 May 2017, 16:30 at IHES, Amphithéâtre Léon Motchane ( Séminaire Géométrie et groupes discrets ) MATH-IHES (TBA) hep-th Jeffrey Danciger ( University of Texas at Austin ) Convex real projective structures and Anosov representations Abstract: We investigate the degree to which the geometry of a compact real projective manifold with boundary is reflected in the associated holonomy representation, a representation of the fundamental group in the projective general linear group PGL(n,R) which in general need not have any nice properties. We show that if the projective manifold is strictly convex, then its holonomy representation is projective Anosov, a condition which generalizes the dynamical properties of convex cocompact representations in rank one (e.g. hyperbolic) geometry. Conversely, a strictly convex projective manifold may be constructed from a projective Anosov representation that preserves a properly convex set in projective space. Applications include new examples of both convex projective manifolds and Anosov representations. Joint work with François Guéritaud and Fanny Kassel.

 Tuesday 23 May 2017, 11:00 at LPTHE, LPTHE Library STR-LPT-ENS-HE (Séminaire commun LPTENS/LPTHE) hep-th Harold Erbin ( LPTENS ) Recent developments in superstring field theory Abstract: I will review some recent developments of type II and heterotic superstring field theory. The approach I will follow is due to Ashoke Sen and based on the construction of the open-closed bosonic string field theory by Zwiebach. Particular attention will be devoted to the three main challenges faced by superstring field theory: inclusion of the Ramond sector, removal of spurious singularities due to the superconformal ghosts and definition of a prescription for the off-shell amplitudes. The plan is the following: 1) motivations, divergences in (super)string theory and off-shell amplitudes; 2) superstring field theory: gauge fixed and quantum action, construction of the Ramond sector 3) momentum representation of amplitudes, applications: unitarity, soft theorems

 Tuesday 23 May 2017, 14:00 at APC, 454 A - Valentin APC-TH (Seminar of the theory group of APC) hep-th Gary Gibbons ( Cambridge University ) Carroll Symmetry, Gravitational Memory and Soft Gravitons Abstract: In the first part of my talk I will discuss the notion of relativity principle, kinematic algebras, the classification of Leblond and Bacry I will define the Carroll group and its extensions. I will gave Applications to very special Relativity String theory and the BMS algebras. In the second part I will discuss plane gravitational waves and how the a subgroup of the Carroll group acts and how this can be used illuminate the currently fashionable topics of gravitational memory and soft gravitons. The talk is aimed at a general audience with a background in Mathematical Physics.

 Tuesday 23 May 2017, 14:30 at IHES, Amphithéâtre Léon Motchane MATH-IHES (TBA) hep-th John Harnad ( CRM Univ. de Montreal and Concordia University & IHES ) Generating functions for weighted Hurwitz numbers and topological recursion Abstract: A brief survey will be given of the use of KP and 2D-Toda tau functions of special “hypergeometric type” as generating functions for weighted Hurwitz numbers (i.e. weighted enumerations of N-sheeted branched coverings of the Riemann sphere, or equivalently, weighted paths in the Cayley graph of the symmetric group S_N generated by transpositions). The weights depend on parametric families of auxiliary parameters, and consist of evaluations of basis elements of the algebra of symmetric functions of the latter. An alternative generating function is provided by certain correlation functions W_{n,g}(x_1,. …, x_n) depending on a pair of integers that play a role analogous to the multidifferentials in the Topological Recursion approach to intersection theory on moduli spaced of marked Riemann surfaces. As in that case, an associated invariant classical and quantum “spectral curve” is derived and a set of recursion relations that determine the general term quadratically in terms of finite sums over preceding ones. Examples include: 1) the “simple” (double or single) Hurwitz numbers studied originally by Okounkov and Pandharipande, 2) The case of "Belyi curves”, having just three branch points, one of them weighted, and the related “dessins d’enfants”; 3) The “weakly monotonic” paths in the Cayley graph, for which the generating tau function is the Itzykson-Zuber-Harish-Chandra integral and (if time permits) 4) The case of simple "quantum Hurwitz numbers", in which the weighting is shown to coincide with that of a quantum Bose-Einstein gas. (Partly based on joint work with M. Guay-Paquet, A. Orlov, B. Eynard, A. Alexandrov and G. Chapuy)

 Tuesday 23 May 2017, 16:00 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-HEP (Séminaire de physique des particules et de cosmologie) hep-ph Jérôme Gleyzes ( JPL and Caltech ) Consistency relations of the large scale structure and how to break them Abstract: Upcoming cosmological experiments intend to exploit the large scale structure of the Universe to get a better understanding of the observed cosmic acceleration. By measuring the power spectrum, one can constrain the equation of state of dark energy, and galaxy surveys promise great improvement over the current constraints. Galaxy surveys can also be used to gather cosmological information beyond cosmic acceleration. For example, one can derive consistency relations that can relate the bispectrum to the power spectrum for example. Those relations are very robust, as they rely on only two assumptions: the equivalence principle and the gaussianity of initial conditions. They are thus expected to hold within the standard cosmological model. On the other hand, their potential violation can be used to put bound on theories that predict deviations from one of those two assumptions, which is what I will explore in this talk.

 Wednesday 24 May 2017, 14:00 at LPTHE, Bibliothèque SEM-INFOR (Séminaire informel) hep-th|math|math-ph|math.AG|math.CO|math.KT|math.MP|math.QA Paul Zinn-Justin ( University of Melbourne ) Schubert calculus and quantum integrability (3/3) Abstract: Schubert calculus is a branch of enumerative geometry, which deals with configurations of linear subspaces of a vector space. Translated into the modern language, it amounts to certain calculations in the cohomology ring of Grassmannians and flag varieties. A practical problem is to give a combinatorial rule for the structure constants of that ring. A few years ago, I observed that there was a hidden quantum integrability in the case of Grassmannians (for which the combinatorial rule is the so-called Littlewood--Richardson rule). In a somewhat unrelated development, there has been a growing body of work (including my own) showing the deep connection between cohomology theories (ordinary cohomology, K-theory, elliptic cohomology) and quantum integrable systems. In particular Maulik and Okounkov introduced a nice framework for this connection. It is natural to try to reinterpret my observation above in this language. After introducing these various concepts, I shall present recent work with A. Knutson in this direction. In particular, this provides completely new rules for the calculation of structure constants of the equivariant cohomology or K-theory of d-step flag varieties for d smaller or equal to 4, thus moving several "steps" closer to the completion of the program of Schubert calculus.

 Tuesday 30 May 2017, 11:00 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-STA (Séminaire de Physique Statistique, CEA/Saclay) cond-mat Eric Vanden-Eijnden ( Courant Institute, NYU ) Modeling Metastability in Complex Systems Abstract: Reactive events such as conformation change of macromolecules, chemical reactions in solution, nucleation events during phase transitions, thermally induced magnetization reversal in micromagnets, etc. pose challenges both for computations and modeling. At the simplest level, these events can be characterized as the hopping over a free energy barrier associated with the motion of the system along some reaction coordinate. Indeed this is the picture underlying classical tools such as transition state theory or Kramers reaction rate theory, whose results fit the mathematical framework of the theory of large deviations. These approaches have been successful to explain reactive events in a wide variety of context. However they presuppose that we know or can guess beforehand what the reaction coordinate of the event is. In many systems of interest -- protein folding, enzyme kinetics, protein-protein interactions, etc. -- making such educated guesses is hard if not impossible. The question then arises whether we can develop a more general framework to describe reactive events, elucidate their pathway and mechanism, and give a precise meaning to a concept such as the reaction coordinate. In this talk I will discuss recent theoretical advances that have been made in this context, and how they can be used to design efficient algorithms to compute the pathway and rate of reactive events.

 Wednesday 31 May 2017, 14:15 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-MAT (Séminaire de matrices, cordes et géométries aléatoires) hep-th Nick Halmagyi ( LPTHE ) (TBA)

 Thursday 1 June 2017, 10:00 at IHP, 314 RENC-THEO (Rencontres Théoriciennes) hep-th David Tong ( Cambridge U. ) TBA

 Thursday 1 June 2017, 11:00 at IPN, Salle A402 IPN-X (Séminaire commun de physique théorique des particules IPN-CPHT-X) hep-ph Manuel Pavon Valderrama ( Beihang University, Beijing ) Scale Invariance in Heavy Hadron Molecules Abstract: When pions are exchanged almost on-shell the range of hadron interactions is unusually long, opening the possibility to interesting phenomena. One example is the Lambda_c(2590) -> Sigma_c pi transition, which is mediated by the emission of an S-wave pion near the mass-shell. Other more well-known example is the D* -> D \pi transition, though in this case the pion is in P-wave. When we combine both vertices to obtain the Lambda_c(2590) Dbar -> Sigma_c D*bar potential, the result is a long-range inverse square potential. With this potential the Lambda_c(2590) Dbar - Sigma_c D*bar system becomes scale invariant, i.e. it is symmetric under dilatations, a property which is also shared by two- and three-body systems with large scattering lengths. This symmetry is however anomalous and is broken by the spectrum, which can at most display a discrete form of it if the interaction is strong enough. We explore where this is the case in the Lambda_c(2590) Dbar - Sigma_c D*bar system, which is a candidate for a molecular explanation of the recently observed heavy pentaquark Pc(4450)+, or in other hadron molecules. In addition we consider what happens when we have a Lambda_c(2590) Sigma_c (or anti Sigma_c) molecule. In this latter case the potential is of the 1/r type, but which an unusual long-range, behaving as Coulomb for typical hadronic scales. The interesting point here is that this coulomb-like potential probably holds an S-wave shallow state, making for a nice prediction of a near-threshold hadron molecule.

 Thursday 1 June 2017, 11:45 at IHP, 314 RENC-THEO (Rencontres Théoriciennes) hep-th Mike Blake ( MIT ) TBA

 Thursday 1 June 2017, 13:30 at DPT-PHYS-ENS, room Conf. IV, 24 Rue Lhomond, ENS Paris SEM-PHYS-ENS (Colloquium du Département de Physique de l'ENS) physics.optics Stefan Rotter ( TU Vienna ) The physics of exceptional points Abstract: In my talk I will discuss the recent exciting developments associated with non-Hermitian degeneracies, also known as “exceptional points”. After having been studied mostly in the domain of mathematical physics, quite a number of experiments have recently demonstrated how the presence of exceptional points leads to very counter-intuitive effects, such as loss- induced lasing, chiral field modes, topological energy transfer etc. I will try to provide an introduction to this topic as well as an overview of the many different areas of physics in which exceptional points are meanwhile being explored.

 Friday 2 June 2017, 10:00 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://courses.ipht.cnrs.fr/?q=fr/node/168 ) COURS (Cours) cond-mat|quant-ph Michel Bauer ( IPhT ) An introduction to Markovian open quantum systems (1/5) Abstract: Closed systems (classical or quantum) are always an idealization of reality. A number of techniques of various accuracy and complexity are in use to take into account interactions of the system with its environment. In the crudest non trivial approximation, the effect of the environment is assumed to depend only on the immediate past of the state of the system (i.e. the density matrix in the quantum case), leading to the notion of Markovian open systems. \par In these lectures we motivate the relevance and consistence of the Markovian approximation for open quantum systems. We also show a very deep connection between effects of an environment and effects of repeated indirect measurements. \par We introduce non-demolition measurements and draw some broad conclusions on measurement in quantum mechanics. More generally we use indirect measurements as a tool to scrutinize the evolution of open quantum systems and analyze some properties of quantum trajectories. \par We also introduce the basics of quantum noises. \par Our focus is on properties that are related, or analogous to classical probability theory. We use the discrete time case to introduce the basic concepts, but also make the connection with continuous time systems. \\ \\ Lecture 1: Quick overview of open quantum systems; Brief review of quantum mechanics; Indirect measurements \\ Lecture 2: Discrete quantum Markovian evolution; Non demolition measurements and progressive wave function collapse \\ Lecture 3: From discrete to continuous time: Lindbladian evolution and its stochastic counterpart \\ Lecture 4: Quantum trajectories, quantum jumps \\ Lecture 5: A brief introduction to quantum noises Attachments: 2016-2017.pdf (5422338 bytes) 2017_Bauer.pdf (5384401 bytes)

 Tuesday 6 June 2017, 11:00 at LPTENS, LPTENS library SEM-LPTENS (Seminaire du LPTENS) hep-th Matthias Gaberdiel ( ETH Zurich ) AdS3 at the String Scale Abstract: String theory on AdS3 is studied from the world-sheet perspective, using the description in terms of a WZW model based on sl(2,R). We identify the leading Regge trajectory states and show that they have the structure of a higher spin Vasiliev theory. We also explain that for the minimal level (corresponding to the situation with a single NS 5-brane) the spacetime theory has a stringy tower of massless higher spin fields which are part of a continuum of light states. For the case of AdS3 x S3 x S3 x S1 we use similar techniques to determine the BPS spectrum of the spacetime theory. Our result suggests that the supergravity BPS spectrum is different than previously thought, as we also verify explicitly. This new insight opens the door towards identifying the CFT dual of string theory on this background.

 Tuesday 6 June 2017, 13:30 at DPT-PHYS-ENS, room Conf. IV, 24 Rue Lhomond, ENS Paris ( ¡¡ Please be aware of the unusual date: Tuesday !! ) SEM-PHYS-ENS (Colloquium du Département de Physique de l'ENS) cond-mat.mtrl-sci Marvin Cohen ( University of California, Berkeley ) TBA

 Tuesday 6 June 2017, 14:00 at APC, 483 A - Malevitch APC-TH (Seminar of the theory group of APC) hep-th David Wiltshire ( University of Canterbury, New Zealand ) Dark energy without dark energy: Observational tests and theoretical challenges Abstract: I will give an overview of the timescape cosmology. It is assumed that inhomogeneities - voids, walls and filaments - modify the average background geometry of the universe, which is no longer a simple solution of Einstein's equations with homogeneous dust. To obtain a viable phenomenology without dark energy, I provide a framework for interpreting Buchert's backreaction formalism, by revisiting fundamental issues relating to the definition of gravitational energy in a complex geometry. Cosmic acceleration is realized as an apparent effect due both to backreaction and the the relative calibration of the asymptotic clocks of observers in gravitationally bound structures relative to the time parameter that best describes the average statistical evolution. The cosmic coincidence problem is solved directly in relation to the growth of the void fraction. Predictions of the timescape phenomenology are very close to the standard cosmology, but with differences which can be tested. I will outline current observational constraints, future tests (e.g., with the Euclid satellite), and also theoretical challenges that need to be overcome for backreaction models to fully compete with the Lambda Cold Dark Matter cosmology.

 Tuesday 6 June 2017, 14:00 at LPTHE, Library LPTHE-PPH (Particle Physics at LPTHE) hep-ph Diego Redigolo ( Weizmann and Tel-Aviv University ) TBA

 Wednesday 7 June 2017, 10:30 at LPTENS, Conf IV COURS (Cours) gr-qc|hep-th Ali Chamseddine Volume quantization, Quanta of Geometry and the Structure of Space-Time

 Friday 9 June 2017, 10:00 at IPHT, Salle Claude Itzykson, Bât. 774 ( https://courses.ipht.cnrs.fr/?q=fr/node/168 ) COURS (Cours) cond-mat|quant-ph Michel Bauer ( IPhT ) An introduction to Markovian open quantum systems (2/5) Abstract: Closed systems (classical or quantum) are always an idealization of reality. A number of techniques of various accuracy and complexity are in use to take into account interactions of the system with its environment. In the crudest non trivial approximation, the effect of the environment is assumed to depend only on the immediate past of the state of the system (i.e. the density matrix in the quantum case), leading to the notion of Markovian open systems. \par In these lectures we motivate the relevance and consistence of the Markovian approximation for open quantum systems. We also show a very deep connection between effects of an environment and effects of repeated indirect measurements. \par We introduce non-demolition measurements and draw some broad conclusions on measurement in quantum mechanics. More generally we use indirect measurements as a tool to scrutinize the evolution of open quantum systems and analyze some properties of quantum trajectories. \par We also introduce the basics of quantum noises. \par Our focus is on properties that are related, or analogous to classical probability theory. We use the discrete time case to introduce the basic concepts, but also make the connection with continuous time systems. \\ \\ Lecture 1: Quick overview of open quantum systems; Brief review of quantum mechanics; Indirect measurements \\ Lecture 2: Discrete quantum Markovian evolution; Non demolition measurements and progressive wave function collapse \\ Lecture 3: From discrete to continuous time: Lindbladian evolution and its stochastic counterpart \\ Lecture 4: Quantum trajectories, quantum jumps \\ Lecture 5: A brief introduction to quantum noises Attachments: 2016-2017.pdf (5422338 bytes) 2017_Bauer.pdf (5384401 bytes)

 Friday 9 June 2017, 11:30 at SAMM, C20.13, Centre Pierre Mendès-France, Univ. Paris-1, 90 rue de Tolbiac, Paris SAMM (Statistics, Analysis, Multidisciplinary Modeling) cond-mat.stat-mech|math-ph|math.FA|math.MP Svetlana Roudenko ( Department of Mathematics, The George Washington University ) Instability of solitary waves in the KdV-type equations Abstract: We revisit the instability of solitons in the critical and supercritcal cases of the KdV equation, in particular the fundamental result of Martel-Merle about instability of solitary waves for the critical KdV equation. Then we investigate a similar phenomenon in the higher dimensional generalizations of the KdV equation, called the Zakharov-Kuznetsov equation. This is joint work with Luiz Farah and Justin Holmer.

 Tuesday 13 June 2017, 14:00 at APC, 483 A - Malevitch APC-TH (Seminar of the theory group of APC) hep-th Kalioppi Petraki ( LPTHE, UPMC ) TBA

 Tuesday 13 June 2017, 16:00 at IPHT, Salle Claude Itzykson, Bât. 774 IPHT-HEP (Séminaire de physique des particules et de cosmologie) hep-ph Andreas Ipp ( Vienna University of Technology ) Gaussian rapidity profile from thick pancake collisions in Glasma simulations Abstract: In this talk I present our recent work [1] on simulating the emergence of the Glasma in the early stages of heavy ion collisions in full 3 1 dimensions. Usually, in the color glass condensate framework incoming nuclei are assumed to be infinitely thin Lorentz-contracted pancakes which leads to boost-invariant rapidity profiles of the resulting energy density after the collision. We break boost invariance by allowing for a finite width of the incoming nuclei along the beam direction and obtain Gaussian-like rapidity profiles already at tree level. The profiles resemble strong coupling results and agree surprisingly well with experimental data of pion multiplicities as obtained at RHIC. [1] AI, D. MÃ¼ller, arXiv:1703.00017

 Wednesday 14 June 2017, 10:30 at LPTENS, Conf IV COURS (Cours) gr-qc|hep-th Ali Chamseddine Noncommutative Geometry and the Unification of all Fundamental Interactions.

 Wednesday 14 June 2017, 10:30 at IHES, Centre de conférences Marilyn et James Simons ( Séminaire de Géométrie Arithmétique Paris-Pékin-Tokyo ) MATH-IHES (TBA) hep-th Yongquan Hu ( Chinese Academy of Sciences, Morningside Center of Mathematics ) Multiplicity one for the mod p cohomology of Shimura curves

 Thursday 15 June 2017, 10:00 at IHP, 314 RENC-THEO (Rencontres Théoriciennes) hep-th Carlos Hoyos ( University of Oviedo ) TBA

 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 CONDMAT-ENS CONDMAT-THEO COSMO-P6 COURS COURS-FED COURS-IPHT CPHT - PHDSEM CPHT PHYS MATH CPHT- BS CPHT-JOUR CPHT-LLR CPMC DISQUANT ESPCI-COLLOQUE ESPCI/PCT FOUNDPHYS GDT-MODSTO GQ GR-COSMO 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 LPNHE LPS-MAGN LPS-MAT-MOL LPS-VULG LPS/ENS 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 MSC PART-PHYS PHEN-PART PHYS-ESPCI PLATEAU PMMH PT-IHES RENC-THEO RENORMALISATION S-LPTENS SAMM SCOPI SEM-BESSON SEM-CPHT SEM-CSNSM SEM-DARBOUX SEM-EXCEP SEM-FED SEM-GRECO 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 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

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