SEPTEMBER 15 - 17, 2004 |
|
| Discrete Mathematics Seminar | |
| Topic: | Co-degree density of hypergraphs |
| Presenter: | Yi Zhao, University of Illinois at Chicago |
| Date: | Wednesday, September 15, 2004, Time: 2:30 p.m., Location: Fine Hall 224 |
| Abstract: | Click here |
| Topology Seminar | |
| Topic: | Contact Ozsvath-Szabo invariants and tight contact structures |
| Presenter: | Paolo Lisca, Pisa |
| Date: | Thursday, September 16, 2004, Time: 4:30 p.m., Location: Fine Hall 314 |
| Abstract: | I will talk about recent joint work with Andras Stipsicz on the existence of tight contact structures on closed, oriented three-manifolds. After stating the results I will describe the two main tools used in their proofs, i.e. contact surgery and the Ozsvath-Szabo invariants for contact structures. If time permits I will then outline some of the proofs. |
SEPTEMBER 20 - 24, 2004 |
|
| Algebraic Geometry Seminar | |
| Topic: | Three-fold divisorial contractions |
| Presenter: | Masayuki Kawakita, RIMS/IAS |
| Date: | Tuesday, September 21, 2004, Time: 4:30 p.m., Location: Fine Hall 322 |
| Statistical Mechanics Seminar | |
| Topic: | Realizability and Superhomogeneity |
| Presenter: | Joel Lebowitz, Rutgers University |
| Date: | Wednesday, September 22, 2004, Time: 2:00 p.m., Location: Jadwin 343 |
| Abstract: | I will discuss conditions for the existence of a point process, i.e. particle distribution, in R^d with a specified density and pair correlation. I will also discuss point processes for which the variance grows slower than the volume. |
| Discrete Mathematics Seminar | |
| Topic: | Menger Theorem for infinite graphs |
| Presenter: | Eli Berger, IAS |
| Date: | Wednesday, September 22, 2004, Time: 2:30 p.m., Location: Fine Hall 224 |
| Abstract: | Click here |
| Geometry, Representation Theory, and Moduli Seminar | |
| Topic: | The flag variety structure for solutions of the Bethe ansatz equations |
| Presenter: | Alexander Varchenko, University of North Carolina, Chapel Hill |
| Date: | Wednesday, September 22, 2004, Time: 3:00 p.m., Location: Fine Hall 214 |
| Abstract: | The Bethe ansatz is a method in the theory of quantum integrable models to calculate eigenvectors for a certain family of commutative linear operators (hamiltonians of the model). One assigns the Bethe ansatz equations to a model. Then a solution of the equations gives an eigenvector of the commuting hamiltonians of the model. The simplest and interesting example of an integrable model is the Gaudin model associated with a complex simple Lie algebra $g$. It turns out that in this case solutions to the Bethe ansatz equations come in families called the populations. It also turns out that each population is isomorphic to the flag variety of the Langlands dual Lie algebra $g^t$. These facts are based on the correspondence between solutions of the Bethe ansatz equations and differential operators called the Miura opers. |
| Ergodic Theory and Statistical Mechanics Seminar | |
| Topic: | Inverse problem for Gibbsian fields |
| Presenter: | Leonid Koralov, Princeton University |
| Date: | Thursday, September 23, 2004, Time: 2:00 p.m., Location: Fine Hall 322 |
| Topology Seminar | |
| Topic: | Fold forms for four-folds |
| Presenter: | Ana Cannas da Silva, Princeton |
| Date: | Thursday, September 23, 2004, Time: 4:30 p.m., Location: Fine Hall 314 |
SEPTEMBER 27 - OCTOBER 1, 2004 |
|
| PACM Seminar | |
| Topic: | Internet Topology Modeling and the Role of Design |
| Presenter: | Walter Willenger, AT&T Labs Research |
| Date: | Monday, September 27, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | The assumption that the Internet has become sufficiently large-scale and homogeneous to be amenable to statistical physics-inspired analysis techniques has recently led to the popular "scale-free" models of Internet topology, which are claimed to explain, for example, the structure of the Internet's router-level connectivity graph by simple random processes that are void of any engineering tradeoffs. An alternative perspective, motivated by engineering, suggests that nonrandom design rather than randomness plays a primary role in the construction and evolution of complex systems, and the complex structure of highly engineered technology and of biological systems is viewed as the natural by-product of Highly Optimized Tradeoffs (HOT) between system-specific objectives and constraints. This talk shows how and why the latter view, when applied to the study of router-level Internet connectivity, results in conclusions that are fully consistent with the real Internet, but are the exact opposite of what the scale-free models claim. The reasons for reaching such divergent conclusions about one and the same system go well beyond the Internet and scale-free models and are endemic in the application of ideas from statistical physics to problems in technology and biology, where it is assumed that the details related to a complex system's design, functionality, constraints, and evolution (i.e., all ingredients that make engineering and biology different from physics) can be safely ignored in favor of random ensembles and their emergent properties. |
| Algebraic Geometry Seminar | |
| Topic: | Rational connectedness of Q-Fano varieties |
| Presenter: | Qi Zhang, University of Missouri |
| Date: | Tuesday, September 28, 2004, Time: 4:30 p.m., Location: Fine Hall 322 |
| Abstract: | A variety $X$ is called $Q$-Fano if $X$ has at most Kawamata log terminal singularities and if the anticanonical bundle of $X$ is ample. $Q$-Fano varieties appear naturally as one of the most important classes of varieties in Mori's program. It is well-known that they are uniruled. The conjecture predicts that they are actually rationally connected. In this talk we shall explain how to apply the theory of the direct images of relative dualizing sheaves (which has been developed by Fujita, Kawamata, Koll\'{a}r, Viehweg and others) to show that $Q$-Fano varieties are indeed rationally connected. |
| Discrete Mathematics Seminar | |
| Topic: | Pfaffian labellings and signs of edge coloring |
| Presenter: | Serguei Norine, Georgia Institute of Technology |
| Date: | Wednesday, September 29, 2004, Time: 2:30 p.m., Location: Fine Hall 224 |
| Abstract: | Click here |
| Department Colloquium | |
| Topic: | The space of strings and the stable cohomology of moduli space |
| Presenter: | Ulrike Tillmann, Oxford University |
| Date: | Wednesday, September 29, 2004, Time: 4:30 p.m., Location: Fine Hall 314 |
| Topology Seminar | |
| Topic: | Relative Heegaard Homology |
| Presenter: | Wu-Chung Hsiang, Princeton University |
| Date: | Thursday, September 30, 2004, Time: 4:30 p.m., Location: Fine Hall 314 |
OCTOBER 4 - 8, 2004 |
|
| PACM Seminar | |
| Topic: | What's Applied and Computational Math Got to Do with High-Performance Nano-Composites? |
| Presenter: | Greg Forest, Institute for Advanced Materials, NanoScience and Technology, University of North Carolina, Chapel Hill |
| Date: | Monday, October 4, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | Nano-composite materials of interest for this lecture consist of high aspect ratio, spheroidal macromolecules, known as "nematic polymers", in a traditional polymer matrix. Rod-like, tube-like, and platelet molecules are added to traditional polymeric materials to enhance a variety of properties, from thermal or electrical conductivities to barrier and mechanical properties. There is no direct theoretical prediction that begins with the composition of nano-inclusions and matrix, tracks the flow into films, fibers, or molded parts, and then infers the effective properties of the composite. Each stage is a mathematical theory, modeling, and simulation challenge; modeling the entire nano-composite pipeline is a conceivable target. Progress and open problems that remain will be discussed, aimed at the graduate students in the Program. |
| Algebraic Geometry Seminar | |
| Topic: | Curve correspondences |
| Presenter: | Yuri Tschinkel, Uni. Goettingen |
| Date: | Tuesday, October 5, 2004, Time: 4:30 p.m., Location: Fine Hall 322 |
| Discrete Mathematics Seminar | |
| Topic: | Aspects of the multivariate Tutte polynomial for graphs and matroids |
| Presenter: | Alan Sokal, New York University |
| Date: | Wednesday, October 6, 2004, Time: 2:30 p.m., Location: Fine Hall 224 |
| Department Colloquium | |
| Topic: | TBA |
| Presenter: | Allen Knutson, Berkeley |
| Date: | Wednesday, October 6, 2004, Time: 4:30 p.m., Location: Fine Hall 314 |
| Geometric Analysis Seminar | |
| Topic: | The convergence and singularities of the J-flow |
| Presenter: | Jian Song, Johns-Hopkins University |
| Date: | Friday, October 8, 2004, Time: 3:00 p.m., Location: Fine Hall 314 |
OCTOBER 11 - 15, 2004 |
|
| PACM Seminar | |
| Topic: | Optimal decisions: From neural spikes, through stochastic differential equations, to behavior |
| Presenter: | Philip Holmes, PACM, MAE & CSBMB, Princeton University |
| Date: | Monday, October 11, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | There is increasing evidence from in vivo recordings in monkeys trained to respond to stimuli by making left- or rightward eye movements, that firing rates in certain groups of `visual' neurons mimic drift-diffusion processes, rising to a (fixed) threshold prior to movement initiation. This supplements earlier observations of psychologists, that human reaction time and error rate data can be fitted by random walk and diffusion models, and has renewed interest in optimal decision-making ideas from information theory and statistical decision theory as a clue to neural mechanisms. I will review some results from decision theory and stochastic ordinary differential equations, and show how they may be extended and applied to derive explicit parameter dependencies in optimal performance that may be tested on human and animal subjects. I will then describe a biophysically-based model of a pool of neurons in a brainstem organ - locus coeruleus - that is implicated in widespread norepinephrine release. This neurotransmitter can effect transient gain and response threshold changes in cortical circuits of the type that the abstract drift-diffusion analysis requires. I will argue that, in spite of many gaps and leaps of faith, a rational account of how neural spikes give rise to simple behaviors is beginning to emerge. This work is in collaboration with Eric Brown, Rafal Bogacz, Jeff Moehlis and Jonathan Cohen (Princeton University), and Ed Clayton, Janusz Rajkowski and Gary Aston-Jones (University of Pennsylvania). It is supported by the National Institutes of Mental Health. |
| Algebraic Geometry Seminar | |
| Topic: | Cubic threefolds and 5-dimensional abelian varieties |
| Presenter: | R. Friedman, Columbia University |
| Date: | Tuesday, October 12, 2004, Time: 4:30 p.m., Location: Fine Hall 322 |
| Abstract: | Let $X$ be a smooth cubic threefold. Then, by a theorem of Mumford, the intermediate Jacobian $JX$ is a principally polarized abelian variety of dimension 5 whose theta divisor has a unique singular point, which has multiplicity three. This talk describes joint work with S. Casalaina-Martin, in which we prove a converse: if $A$ is a principally polarized abelian variety of dimension 5 whose theta divisor has a unique singular point, which has multiplicity three, then $A$ is the intermediate Jacobian of a smooth cubic threefold. The method of proof is to view $A$ as a generalized Prym variety and to use this description to analyze the singular points of the theta divisor. |
| Statistical Mechanics Seminar | |
| Topic: | TBA |
| Presenter: | G. Gallavotti, University of Rome |
| Date: | Wednesday, October 13, 2004, Time: 2:00 p.m., Location: Jadwin 343 |
OCTOBER 18 - 22, 2004 |
|
| PACM Seminar | |
| Topic: | PlanetLab: A Platform for Introducing Disruptive Technology into the Internet |
| Presenter: | Larry Peterson, Department of Computer Science, Princeton University |
| Date: | Monday, October 18, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | PlanetLab is a geographically distributed overlay network designed to support the deployment and evaluation of planetary-scale network services. Two high-level goals shape its design. First, to enable a large research community to share the infrastructure, PlanetLab provides {\it distributed virtualization}, whereby each service runs in an isolated slice of PlanetLab's global resources. Second, to support competition among multiple network services, PlanetLab decouples the operating system running on each node from the network-wide services that define PlanetLab, a principle referred to as {\it unbundled management}. This talk describes how PlanetLab realizes these two goals, and highlights several novel network services running on PlanetLab. |
| Statistical Mechanics Seminar | |
| Topic: | TBA |
| Presenter: | H-T. Yau, Stanford University |
| Date: | Wednesday, October 20, 2004, Time: 2:00 p.m., Location: Jadwin 343 |
FALL BREAK - OCTOBER 25 -29 |
|
NOVEMBER 1 - 5, 2004 |
|
| PACM Seminar | |
| Topic: | No Equations |
| Presenter: | Ioannis Kevrekidis, Department of Chemical Engineering, Princeton University |
| Date: | Monday, November 1, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
NOVEMBER 8 - 12, 2004 |
|
| PACM Seminar | |
| Topic: | Multiscale Analysis and Diffusion Geometries on Digital Data Sets |
| Presenter: | Ronald Coifman, Department of Mathematics, Yale University |
| Date: | Monday, November 8, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | We will discuss simple methodologies for analyzing and discovering geometric structures in massive data sets. We introduce multiscale Harmonic analysis on graphs and on subsets of Euclidean spaces. The methods augment spectral graph theory, kernel principal component analysis, manifold learning and other methods from machine learning. |
NOVEMBER 15 - 19, 2004 |
|
| PACM Seminar | |
| Topic: | Astrophysical Gas Dynamics |
| Presenter: | Jim Stone, Department of Astrophysical Sciences, Princeton University |
| Date: | Monday, November 15, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | Most of the visible matter in the Universe is a plasma, that is a dilute gas of electrons, ions, and neutral particles. In many cases the dynamics of this plasma is described to a good approximation by the equations of compressible hydrodynamics, magneto-hydrodynamics (in the case that magnetic fields are present), or radiation MHD (in the case that photons provide significant energy or momentum transport). Studying multidimensional, time-dependent and/or highly nonlinear processes in astrophysical plasmas usually requires numerical methods, however developing accurate and robust methods for compressible MHD and/or radiation MHD is still an active area of research in applied mathematics. I will describe some problems in astrophysics which motivate the development of such methods, describe recent advance in numerical algorithms for MHD and their implementation on parallel processors, and describe some of what we have learned from application of the methods. |
NOVEMBER 22 - 24, 2004 |
|
| PACM Seminar | |
| Topic: | Qualitative/Quantitative Analysis of a Class of Biological Networks |
| Presenter: | Eduardo Sontag, Department of Math and BioMaPS Institute for Quantitative Biology, Rutgers University |
| Date: | Monday, November 22, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | The analysis of signaling networks constitutes one of the central questions in systems biology: there is an pressing need for powerful mathematical tools to help understand, quantify, and conceptualize their information processing and dynamic properties. Approaches based upon detailed modeling and simulation are hampered by the fact that is virtually impossible to experimentally validate the form of the nonlinearities used in reaction terms, or, even when such forms are known, to accurately estimate coefficients (parameters). In this presentation, we show how some signaling systems may be profitably studied by first decomposing them into several subsystems, each of which is endowed with certain "qualitative" mathematical properties. These properties, in conjunction with a relatively small amount of "quantitative" data, allow the behavior of the entire, reconstituted system, to be deduced from the behavior of its parts. This novel approach emerged originally from our study of possible multi-stability or oscillations in feedback loops in cell signal transduction modeling, but turns out to be of more general applicability. (Most of the work reported in this talk was carried out in collaboration with D. Angeli, and parts of it with J. Ferrell, G. Enciso, and P. de Leenheer.) |
| Statistical Mechanics Seminar | |
| Topic: | Linear response far from equilibrium |
| Presenter: | D. Ruelle, IHES |
| Date: | Wednesday, November 24, 2004, Time: 2:00 p.m., Location: Jadwin 343 |
NOVEMBER 29 - DECEMBER 3, 2004 |
|
| PACM Seminar | |
| Topic: | Frames and the Fundamental Inequality |
| Presenter: | Jelena Kovacevic, Center for BioImage Informatics, Carnegie Mellon University |
| Date: | Monday, November 29, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |
| Abstract: | In recent years, we have seen an explosion of work on frames, in particular finite frames. We find finite tight frames when the lengths of the frame elements are predetermined. In particular, we derive a ``fundamental inequality" which completely characterizes those sequences which arise as the lengths of a tight frame's elements. Furthermore, using concepts from classical physics, we show that this characterization has an intuitive physical interpretation. At the end of the talk, we also examine some recent applications of frames. |
DECEMBER 6 - 10, 2004 |
|
| PACM Seminar | |
| Topic: | Approximating Quantum Mechanics |
| Presenter: | Emily Carter, Department of Mechanical & Aerospace Engineering, Princeton University |
| Date: | Monday, December 6, 2004, Time: 4:00 p.m., Location: Fine Hall 214 |