Dynamical Systems Seminar Schedule 2011-2012

The Dynamical Systems Seminar for the mathematics department at the University of Maryland meets on Thursdays from 3:30 to 5:30 PM in Room 1308 of the Mathematics Building.

Beginning in Fall 2012, the seminar starting time will move to 2:00 PM Thursday.

Also visit the Dynamics at Maryland Page, which includes a list of upcoming dynamics-related events at Maryland, and our Student Seminar Page.


Spring 2012

(Organizers: Joe Auslander, Mike Boyle, Giovanni Forni)
Date Speaker (Affiliation) Title/Abstract
January 26 NO SEMINAR ---
January 31
NOTE: The seminar is on Tuesday this week.
Sam Senti (Institute of Mathematics of the Federal University of Rio de Janeiro) Title: Thermodynamic formalism for the Henon map at the first bifurcation
Abstract: We study the dynamics of strongly dissipative Henon maps, at the first bifurcation parameter where the uniform hyperbolicity is destroyed by the formation of tangencies inside the limit set. We prove the existence of an equilibrium measure which minimizes the free energy associated with the non continuous potential -t\log J^u, where t is in a certain interval of the form (-\infty, t_0), t_0>0 and J^u denotes the Jacobian in the unstable direction. We also prove the occurrence of a phase transition at which multiple equilibrium measures coexist and the pressure function is not differentiable. This is a joint work with Hiroki Takahasi from the University of Tokyo
February 9 Pat Hooper (CCNY) Title: The invariant measures of some infinite interval exchange maps
Abstract: A construction of Thurston produces produces a translation surface from a graph and a positive eigenfunction for the adjacency operator. The construction produces surfaces with interesting symmetry groups. I will consider surfaces built in this way from infinite graphs. Fixing such a surface and a direction in [0,2*pi), we can study the unit speed flow in this direction. For most such surfaces and some directions, I will explain a characterization of the locally finite ergodic invariant measures for this flow. These ergodic measures are in bijective correspondence with the extremal positive eigenfunctions of the graph. In many cases, this characterization can be promoted to a classification of ergodic invariant measures utilizing known Martin boundary theory for the graph.
February 16
(3 PM-Note Special Time)
Jon Chaika (University of Chicago) Title: Part I). Interval exchange transformations. Part II). Quantitative shrinking targets for IETs and rotations.
(For a pdf file compiling the tex abstract below, click here.)
Abstract:
Part I). Interval exchange transformations are invertible, piecewise order preserving isometries of the unit interval with finitely many discontinuities. Starting from rotations of the circle, which they generalize, this talk will present their connections to flows on flat surfaces, rational billiards and symbolic coding. Recent results on diophantine approximation for interval exchange transformations will be presented.
Abstract: Part II). In this talk we present some quantitative shrinking target results. Consider $T:[0,1] \to [0,1]$. One can ask how quickly under T a typical point $x$ approaches a typical point $y$. In particular given $\{a_i\}_{i=1}^{\infty}$ is $T^ix \in B(y,a_i)$ infinitely often? A finer question of whether $T^ix \in B(y,a_i)$ as often as one would expect will be discussed. That is, does
$$\underset{N \to \infty}{\lim}\frac{\underset{n=1}{\overset{N}{\sum}} \chi_{B(y,a_n)(T^nx)}}{\underset{n=1}{\overset{N}{\sum}} 2a_n}=1$$
for almost every $x$. We will present applications to billiards in rational polygons and a related result for Sturmian sequences. This is joint work with David Constantine.
February 23 Tom Meyerovitch (UBC) Title: Stationary Markov random fields and Gibbs measures
Abstract: Markov random fields are higher-dimensional analogs of Markov-chains, expressing a conditional independence property. The Hammersley-Clifford theorem states that Markov Random fields are Gibbs measures with a nearest neighbor interaction, under an assumption on the support: the existence of a ``safe symbol''. In this talk I will present joint work (in progress) with Nishant Chandgotia, Guangyue Han, Brian Marcus and Ronnie Pavlov, investigating Markov random fields.
March 1 Vadim Kaloshin
(Univ. of Maryland)
Title: On conjugacy of convex billiards (joint with A. Sorrentino)
Abstract: We show that if two billiard maps of convex domains are C^2-conjugate near the boundary, then the corresponding domains are similar, i.e. they can be obtained one from the other by a rescaling and an isometry. As an application, we prove a conditional version of the Birkhoff conjecture on the integrability of planar billiards and show that the original conjecture is equivalent to what we call an Extension problem. Quite interestingly, our result and a positive solution to this extension problem would provide an answer to a closely related question in spectral theory: if the marked length spectra of two domains are the same, is it true that they are isometric?
March 8
Room 3206
Marcel Guardia
(U. Politecnica de Catalunya)
This is a joint meeting with the PDE seminar.
The talk will be in the Colloquium Room, Room 3206.
Title: Growth of Sobolev norms for the cubic defocusing nonlinear Schroedinger equation in polynomial time
Abstract: For the abstract on the PDE seminar page, click here.
March 15 Kelly Funk (University of Illinois at Urbana-Champaign) Title: On Rigidity Sequences
Abstract: In this talk we will discuss rigidity sequences and uniform rigidity sequences. I will give examples of each for weakly mixing transformations and inform you of what has been done thus far to characterize the structure of these sequences. Then I will prove a generic result regarding weakly mixing homeomorphisms of the two torus that are uniformly rigid and show that if a sequence satisfies a certain growth rate then there is a weakly mixing homeomorphism of the two torus that is uniformly rigid with respect to the given sequence.
March 22 NO SEMINAR
Spring Break

Spring Break
March 29 Carlos Matheus Silva Santos (Paris 13) Title: A criterion for the simplicity of the Lyapunov spectrum of square-tiled surfaces (joint with M. Moeller and J.-C. Yoccoz)
Abstract: The Lyapunov exponents of the so-called Kontsevich-Zorich (KZ) cocycle over the Teichmuller geodesic flow are important quantities associated to the study of deviation of ergodic averages of interval exchange transformations, translation flows and billiards. After the seminal works of G. Forni, and A. Avila and M Viana on the so-called Kontsevich-Zorich conjecture, we know that the Lyapunov exponents of KZ cocycle with respect to the natural absolutely continuous (Masur-Veech) probability are simple (i.e., they are non-zero and their multiplicity is 1). On the other hand, G. Forni (and his collaborators) constructed particular examples of probabilities associated to square-tiled surfaces whose Lyapunov spectrum for the KZ cocycle have zero and/or non-simple exponents. In particular, one can ask whether there is a (say, sufficient) criterion to decide the simplicity of the Lyapunov spectrum associated to square-tiled surfaces. In this talk we will discuss a joint work with Martin Moller and Jean-Christophe Yoccoz showing such a simplicity criterion (in the spirit of the work of A. Avila and M. Viana). As a consequence of this simplicity criterion, we will exhibit an infinity family of square-tiled surfaces (of genus 3) of the minimal stratum H(4) meeting the conditions of our simplicity criterion.
March 31 - April 3 Semi-annual Workshop in Dynamical Systems and Related Topics 2012, with a focus on applications of dynamics to mathematical physics and related areas
April 5 Jacopo De Simoi
(Univ. di Roma)
Title: Partially hyperbolic systems close to trivial extensions (with C. Liverani)
Abstract: We consider a class of partially hyperbolic systems on the two-dimensional torus given by smooth $\varepsilon$-perturbations of maps $F(x,\theta)=(f(x,\theta),\theta)$ where $f(\cdot,\theta)$ are smooth expanding maps of the circle. For sufficiently small $\varepsilon$ we prove existence and uniqueness of a SRB measure and exponential decay of correlation for H\"older observables with exponentially small rate $\exp(-c/\varepsilon)$; if additionally $f(x,\theta)=f(x)$ does not depend on $\theta$, the system presents exponential decay of correlation with rate $-\varepsilon/\log\varepsilon$.
April 12 Dmitry Dolgopyat
(UMD)
Title: Limit theorems for toral translations
Abstract: We study the discrepancy of the number of visits of a Kronecker sequence on T^d to nice sets. We are interested in particular in the question how the answer depends on the geometry of the set. It is a joint work with Bassam Fayad.
April 19 Albert Fathi
(ENS Lyon)
Title: Smoothing Lyapunov functions
Abstract: This is a joint work Pierre Pageault.
A Lyapunov function is a a function which is non-increasing along orbits of a dynamical systems.
Continuous Lyapunov functions for flows have been constructed by Conley.
Smooth Lyapunov functions can be constructed by Conley's method for homeomorphisms. However there are examples of continuous flows which do not admit a smooth non-constant Lyapunov function. We will explain this phenomenon. We will also give results on the possibility of approximating a Lyapunov function by a smooth Lyapunov function
April 26 Livio Flaminio (Lille) Title: Flows Cohomologies and equi-distribution
Abstract: For nilflows on Heisenberg 3-maniflods, in a joint work with Forni, we gave accurate estimates of Birkhoff averages by studying the dynamics of "renormalization" on the bundle of degree 1 cohomology of the moduli space of nilflow. These methods generalize to other situations. On the one hand, by considering the cohomology in higher degree one can estimate Birkhoff averages for action of R^n on (2n +1)-Heisenberg manifolds. (Joint work with S. Cosentino) On the other hand, even in the absence of a true dynamic renormalization, it is possible to obtain Quantitative estimates of Birkhoff averages for almost any initial point for the flows on nilmanifolds of particular groups of greater degree of nilpotency. (Joint work with G. Forni) The talk will focus on the second topic above.
May 3 Todd Fisher
(BYU)
Title: Unique equilibrium states for certain robustly transitive diffeomorphisms
Abstract: (Joint work with Vaughn Climenhaga and Dan Thompson)
During the first hour of the seminar we will discuss the concepts of topological pressure and equilibrium states. We will also outline a classical argument due to Bowen that expansive systems with specification have unique equilibrium states. During the second hour we will explain recent generalizations to Bowen's argument that show the existence of equilibrium states for a larger class of systems. We then apply these results to certain robustly transitive diffeomorphisms.
May 10 Evelyn Sander
(George Mason University)
Title: Uncovering the Bifurcation Structure of the Diblock Copolymer Model
Abstract: The diblock copolymer equation is a fundamental model for phase separation processes which involve long-range interactions, and therefore promote the formation of fine structure. From a mathematical point of view, the evolution equation arises from the classical Cahn-Hilliard model by the addition of a linear term, which is due to the addition of a nonlocal term to the associated energy. While the equilibrium structure of the Cahn-Hilliard model on one-dimensional domains is fully understood, a complete description of the diblock copolymer equilibrium structure is still unknown. In this talk we describe some preliminary results which describe the formation of energy minimizers with fine structure through a homotopy from the classical Cahn-Hilliard bifurcation diagram, as well as related multistability issues. This talk is based on joint work with Ian Johnson and Thomas Wanner.

Fall 2011

(Organizers: Vadim Kaloshin and Paul Wright)
Date Speaker (Affiliation) Title/Abstract
September 8 NO SEMINAR ---
September 15 William Goldman (UMCP)
Geodesics on Margulis Spacetimes
Abstract: A Margulis spacetime is a 3-manifold which is a quotient of 3-space by a free group of affine transformations. Associated to every such 3-manifold M is a hyperbolic surface S. Generalizing the correspondence between closed geodesics on M and closed geodesics on S, we establish an orbit equivalence between recurrent spacelike geodesics on $M^3$ and recurrent geodesics on S. In contrast, no timelike geodesic recurs in either forward or backwards time. This is joint work with Francois Labourie.
September 22 Joseph Auslander (UMCP) Regional Proximality, McMahon's Theorem, and the Veech Relation
September 29 Abed Bounemoura (IAS) Persistence of invariant submanifolds
Abstract: In this talk, we will give a simple and geometrical proof of the classical result on persistence and uniqueness for normally hyperbolic submanifolds. Moreover, the proof gives a new result on persistence for a wider class of submanifolds, which we call topologically normally hyperbolic. This is a joint work with Pierre Berger.
October 6 Pierre Pageault (ENS Lyon) Functions whose set of critical points is an arc
Abstract: We prove that on a compact connected manifold M with dim(M)>1, the set of C^1 functions whose set of critical points is an arc is dense for the C^0 topology. We then present applications in dynamic, and link them with uniqueness problems of Weak KAM solution associated to Mañé Lagrangians.
October 13 Mark Demers (Fairfield) A spectral gap for the transfer operator of the Lorentz gas
Abstract: Much attention has been given in recent years to developing a framework to study directly the transfer operator associated with hyperbolic maps on an appropriate Banach space. For the billiard map associated with a Lorentz gas of both finite and infinite horizon, we construct generalized function spaces on which the transfer operator is quasi-compact and has a spectral gap. This framework gives a unified approach to proving the statistical properties and various limit laws associated with billiards, such as exponential decay of correlations, central limit theorem and large deviation estimates. It also has potential applications to many classes of perturbations. This is joint work Hong-Kun Zhang.
October 20 NO SEMINAR Semi-annual Workshop in Dynamical Systems and Related Topics, Penn St.
October 27 Nikita Selinger (SUNY Stony Brook) Title: The proof of Pilgrim's conjecture.
Abstract: Let $f$ be a postcritically finite branched self-cover of a 2-dimensional topological sphere. Such a map induces an analytic self-map $\sigma_f$ of a finite-dimensional Teichm\"uller space. We prove that this map extends continuously to the augmented Teichm\"uller space and give an explicit construction for this extension. This allows us to characterize the dynamics of Thurston's pullback map near invariant strata of the boundary of the augmented Teichm\"uller space. The resulting classification of invariant boundary strata is used to prove a conjecture by Pilgrim.
November 3 Alex Eskin (Chicago)
Note: This speaker will also give the department colloquium on November 2.
Sums of Lyapunov exponents of the Teichmueller geodesic flow, and the Siegel-Veech constants
This is joint work with Maxim Kontsevich and Anton Zorich
November 10 Francesco Cellarosi (IAS) Title: Random square-free numbers.
Abstract: A square-free number is an integer that is not divisible by p^2 for any prime p. I shall discuss two ways of generating 'random' square-free numbers. One construction is inspired by Statistical Mechanics and enjoys some unexpected properties, such as a non-standard limit theorem. The second construction is more classical and can be understood using a 'natural' dynamical system, whose ergodic properties have been recently examined by P. Sarnak in connection with his conjecture on the randomness for the Möbius function. Joint work with Ya.G. Sinai.
November 17 David Aulicino (UMCP) Title: "Classifying Teichm\”uller Disks with Completely Degenerate Kontsevich-Zorich Spectrum"
Abstract: The moduli space of genus g Riemann surfaces is the space of all complex structures on a closed orientable surface of genus g up to orientation preserving diffeomorphisms. The Teichm\"uller geodesic flow is the flow on the cotangent bundle of the Teichm\"uller space of surfaces defined by the direction of minimal dilatation and it descends to the cotangent bundle of the moduli space under the action of the mapping class group. It is well-known that the Lyapunov spectrum of this flow is determined by g numbers 1=\lambda_1 \geq \lambda_2 \geq \cdots \geq \lambda_g \geq 0. The Kontsevich-Zorich conjecture, proven by Forni and Avila-Viana, showed that generically all the inequalities are strict with respect to the canonical absolutely continuous measures. However, Forni found an example of a measure on the genus three moduli space, and Forni-Matheus found a measure in genus four, with completely degenerate spectrum, i.e. 1=\lambda_1 > \lambda_2 = \cdots = \lambda_g=0. We prove that these are the only such measures in genus three and four. Furthermore, there are no such measures for g=2 and g \geq 13. Finally, if there are no square-tiled surfaces in genus five that determine a measure with completely degenerate spectrum, then there are no examples for g \geq 5.
November 24 NO SEMINAR THANKSGIVING BREAK
December 1 Barney Bramham (IAS)
Please note that this seminar is joint with the Geometry/Topology seminar.
Title: "Approximating Hamiltonian systems by integrable systems using pseudo-holomorphic curves".
Abstract: I will talk about an approach, using pseudo-holomorphic curve techniques from symplectic geometry, to the following question in dynamical systems of Anatole Katok: "In low dimensions is every conservative dynamical system with zero topological entropy a limit of integrable systems?"
December 8 Robbie Robinson (George Washington) Title: Kakaya's theorem and maps of the interval
Abstract: In 1924 Soichi Kakeya described a common generalization of decimal and continued fraction expansions. The idea was reinvented by Bissinger and Everett in the 1940s, and in 1957 Renyi recast the idea in terms of maps of the interval, where it is now called f-expansions. In this talk we will discuss Kakeya's original theorem on the subject in the context of interval maps, as well discussing some contributions of Renyi, Parry and others.

Previous Schedules (listed by academic year)

1998-1999 1999-20002000-2001 2001-2002
2002-2003 2003-2004 2004-2005 2005-2006
2006-2007 2007-2008 2008-2009 2009-2010
2010-2011 ---------