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- August 12th, 2015 (10:00am - 12:00pm)
**Seminar:**Ph.D. Thesis Defense**Title:**"Effective Theory of Levy and Feller Processes"**Speaker:**Adrian Maler, Adviser: Stephen Simpson, Penn State**Location:**MB106We develop a computational framework for the study of stochastic processes with 'cadlag' (left-limited, right-continuous) modifications, including Levy processes and Feller processes. We prove that a cadlag modification is computable from a representation of the process, and establish other basic results in an effective theory of stochastic processes.

- August 13th, 2015 (10:00am - 12:00pm)
**Seminar:**Ph.D. Thesis Defense**Title:**“C*-algebras in Kirillov Theory”**Speaker:**Pichkitti Bannangkoon, Adviser: Nigel Higson, Penn State**Location:**MB106In this dissertation, I study connections between C°-algebra theory and the representation theory of simply connected nilpotent Lie groups, specifically the Kirillov theory. If G is a simply connected nilpotent Lie group, then Kirillov’s famous theorem gives an explicit bijection between the set of equivalence classes of unitary irreducible representations of G and the set of coadjoint orbits of G in g, the dual of the Lie algebra of G. Inspired by this, and by the Plancherel theorem, I introduce two new C°-algebras. The first is an algebra of operators on L2pGq and the second is an algebra of operators on L2pg°q. I formulate the conjecture that they are isomorphic, prove the conjecture in the case of Heisenberg group (which is the crucial building block for general nilpotent Lie groups) and examine the prospects for the conjecture in other cases.

- August 14th, 2015 (10:00am - 12:00pm)
**Seminar:**Ph.D. Thesis Defense**Title:**"Quantization of Affine Coadjoint Orbits"**Speaker:**Guangzhong Peng, Adviser: Paul Baum/Nigel Higson, Penn State**Location:**MB106Using twisted equivariant K-homology, E. Meinrenken defined the quantization of a q-Hamiltonian space as the pushforward of the fundamental class by a Morita morphism and obtained an element in the Verlinde algebra. This dissertation explains a different way to obtain the quantization of a Hamiltonian loop group space.

- August 17th, 2015 (01:00pm - 03:00pm)
**Seminar:**Ph.D. Thesis Defense**Title:**"On the Quantization of Coadjoint Orbits via the Positivity of Kirillov's Character Formula"**Speaker:**Ehssan Khanmohammadi, Adviser: Nigel Higson, Penn State**Location:**MB106Kirillov proved his character formula for simply connected nilpotent Lie groups in 1962 and conjectured its universality. The validity of this conjecture has been verified for some other classes of Lie groups, most notably for the case of tempered representations of reductive Lie groups by Rossmann. In this dissertation we explain how Kirillov's character formula can be used in the quantization of coadjoint orbits. First we prove a positivity property of Kirillov's character formula for some classes of Lie groups, including nilpotent Lie groups, which possess real polarizing subgroups. Then we use this positivity property to construct group representations following the ideas of Gelfand, Naimark, and Segal. Finally we discuss several approaches to proving positivity in the absence of real polarizations.

- August 24th, 2015 (12:20pm - 01:30pm)
**Seminar:**CCMA Luncheon Seminar**Title:**Introduction to applied math courses**Speaker:**Various speakers**Location:**MB114- August 24th, 2015 (02:30pm - 03:30pm)
**Seminar:**Computational and Applied Mathematics Colloquium**Title:**Global Riemann Solver for Gas Flooding in Reservoir Simulation**Speaker:**Wen Shen, Penn State**Location:**MB106In this talk we consider the model for gas flooding with three component. The resulting model is a 2 × 2 system of conservation law. The model is known to be non-hyperbolic, with various degeneracies. These include a curve and an area of linearly degeneracy, two curves of parabolic degeneracy. We present a construction of the global Riemann Solver, which takes advantage of the under- lining splitting property of the thermo-dynamics from the hydro-dymanics. This is a joint work with S. Khorsandi and R. Johns, both from Department of Energy and Mineral Engineering, Penn State University.

- August 25th, 2015 (01:30pm - 02:20pm)
**Seminar:**Theoretical Biology Seminar**Title:**Note: special Applied Algebra talk (not TBS). Computing Galois groups numerically with Bertini.**Speaker:**Jose Israel Rodriguez, Notre Dame**Location:**MB106Galois groups are an important part of number theory and algebraic geometry. To a parameterized system of polynomial equations one can associate a Galois group whenever the system has k (finitely many) nonsingular solutions generically. The Galois group of a parameterized system is a subgroup of the symmetric group on k elements. Using random monodromy loops it has been shown how to compute the Galois group when it is the full symmetric group. In this talk we show how to compute Galois groups that are not the full symmetric group. We conclude with an implementation using Bertini.m2, an interface to the numerical algebraic geometry software Bertini through Macaulay2. This is joint work with Jon Hauenstein and Frank Sottile.

- August 25th, 2015 (03:00pm - 05:00pm)
**Seminar:**Complex Fluids Seminar**Title:**Self-Assembly in Colloidal Systems: New Insights through Novel Algorithms**Speaker:**Erik Luijten, Northwestern University**Location:**MB216Suspensions of colloidal particles are widely studied as prototypical systems displaying self-assembly. I will demonstrate how efficient simulation algorithms can yield new insights into physical phenomena observed in these systems. Specifically, I will focus on (1) a general Monte Carlo algorithm for complex fluids that is rejection-free, irrespective of the interactions involved, and (2) a boundary-element method that permits the dynamic computation of induced dielectric effects. Both algorithms make it possible to uncover explanations for striking experimental observations.

- August 26th, 2015 (03:30pm - 05:30pm)
**Seminar:**Applied Algebra and Network Theory Seminar**Title:**Computing Galois groups numerically with Bertini.**Speaker:**Jose Israel Rodriguez. NOTE THE TIME/ROOM CHANGE: Tuesday 01:30-02:20 in MB106, University of Notre Dame**Location:**MB315Galois groups are an important part of number theory and algebraic geometry. To a parameterized system of polynomial equations one can associate a Galois group whenever the system has k (finitely many) nonsingular solutions generically. The Galois group of a parameterized system is a subgroup of the symmetric group on k elements. Using random monodromy loops it has been shown how to compute the Galois group when it is the full symmetric group. In this talk we show how to compute Galois groups that are not the full symmetric group. We conclude with an implementation using Bertini.m2, an interface to the numerical algebraic geometry software Bertini through Macaulay2. This is joint work with Jon Hauenstein and Frank Sottile.

- August 26th, 2015 (06:00pm - 07:00pm)
**Seminar:**GTA and Instructor Training**Title:**"Teaching Mathematics at Penn State"**Speaker:**James Sellers, Professor and Associate Head of Undergraduate Mathematics, Penn State**Location:**MB114- August 27th, 2015 (11:15am - 12:05pm)
**Seminar:**Algebra and Number Theory Seminar**Title:**Organisational Meeting**Speaker:**All, PSU**Location:**MB106Meet for lunch at 11:45

- August 27th, 2015 (11:15am - 12:29pm)
**Seminar:**Teaching Mathematics Discussion Group Seminar**Title:**Introduction/Organizational Meeting**Speaker:**Attendees, Penn State**Location:**MB102The Teaching Mathematics Discussion Group is designed to be an open forum for those of us to teach mathematics to ask questions, discuss best practices, and evaluate research pertaining to mathematics education. We may also feature guest speakers or workshops in specific skill areas. The group is open to anyone and you do not have to attend every week to participate. Simply show up for the week when the topics sound interesting or applicable to you! This week, we will be brainstorming ideas for the coming sessions, so just bring a friendly face and any questions you may have about teaching mathematics. These can be big or small, philosophical or practical. We are open to all ideas. Hope to see you there!

- August 27th, 2015 (02:30pm - 03:30pm)
**Seminar:**Noncommutative Geometry Seminar**Title:**Noncommutative Geometry 101: Operators and symbols**Speaker:**Nigel Higson, Penn State**Location:**MB106I shall give two lectures introducing some of the ideas that appear in the research of Penn State's noncommutative geometry group. In the first I shall discuss differential and Hilbert space operators, and various sorts of "symbols" that can be attached to them. In the second I shall examine how the general theory applies to Sturm-Liouville operators on a half-line, following some remarkable early work Hermann Weyl that has proved to be very influential in representation theory.

- August 28th, 2015 (03:00pm - 04:30pm)
**Seminar:**CCMA PDEs and Numerical Methods Seminar Series**Title:**Numerical methods for fine-scale petroleum reservoir simulation**Speaker:**Chensong Zhang, Chinese Academy of Sciences**Location:**MB315Computer simulation is widely used by petroleum engineers to understand oil recovery mechanisms. We will first briefly review a few mathematical models for petroleum reservoir simulation. Then we focus on a general compositional model and develop a fully-implicit method as well as effective preconditioners for solving the Jacobian systems. We will also discuss efficient parallel implementation of the proposed preconditioners on different platforms. The accuracy, robustness, and parallel scalability of the parallel simulator are then validated using large-scale black oil benchmark problems.

- August 28th, 2015 (03:35pm - 04:35pm)
**Seminar:**Probability and Financial Mathematics Seminar**Title:**Markov processes in a random environment**Speaker:**Yuri Suhov, Penn State University**Location:**MB106Abstract. We propose a construction of a Markov process (MP) in a (Markovian) random environment. (I am not 100 percent sure: may be some special cases/elements of this constructions can be found in the existing literature.) A feature of this construction is that it allows an invariant measure (IM) which is naturally built from IMs for the basic MPs and IMs for the MP (or (MPs)) describing the dynamics of state of environment (SE). In general tems, the generator of the combined process is obtained as a sum of generators for components (with non-commuting summands). This construction gives quite spectacular results for some interesting examples: Jackson network, simple exclusion, Ornstein--Uhlenbeck. (The latter is related to the concept of stochastic volatility in Math Finance.) In the course of presentation, I will not assume any special knowledge from the theory of Markov processes or their applications. However, exposure to basic probabilistic concepts would make understanding easier.

- August 31st, 2015 (12:20pm - 01:30pm)
**Seminar:**CCMA Luncheon Seminar**Title:**High performance computing and its applications in reservoir simulation**Speaker:**Chensong Zhang, Chinese Academy of Sciences**Location:**MB114Simulation based scientific discovery and engineering design demand extreme computing power and highefficiency algorithms. This demand is one of the main driving forces to pursuit of highperformance computing (HPC) hardware and software during the last few decades. As we enter the multipetaflop era, frequency of a single CPU core does not increase beyond certain critical value. On the other hand, the number of computing cores in supercomputers is growing exponentially, which results in higher and higher system complexity. This trend of HPC demands new efficient and scalable algorithms. As an example, we will mainly focus on its applications in petroleum reservoir simulation. Computer simulation is widely used by petroleum engineers to understand oil recovery mechanisms. In this talk, we will introduce a simple mathematical model for petroleum reservoir simulation and discuss numerical challenges to solve this model on HPC computers.

- August 31st, 2015 (02:30pm - 03:30pm)
**Seminar:**Computational and Applied Mathematics Colloquium**Title:**Effective decoupling for general purpose reservoir simulation**Speaker:**Changhe Qiao, Penn State**Location:**MB106Reservoir simulation is one of the most important tools for reservoir engineers to estimate, predict and optimize the petroleum oil and gas production. By describing the dynamics of multiphase flow in subsurface, the evolution of production rate, underground pressure and optimal well placement can be accurately predicted based on accurate geological data. The Black oil model and the compositional model are two of the most popular models in the past few decades. This paper aims to design the optimal decoupling and preconditioning technology for general purpose reservoir simulation. Based on a compositional formulation, the Jacobian matrix was analyzed based on the differential operators. The existing decoupling techniques were analyzed and convergence was shown when the time step size approaches zero. An analytical decoupling technique at the partial differential equation level was proposed. Based on the analysis, a new decoupling method, which combined the analytical and algebraic methods, was proposed. Numerical experiments demonstrated the benefit of the new decoupling method.

- August 31st, 2015 (03:35pm - 04:35pm)
**Seminar:**Dynamical systems seminar**Title:**Slow entropy for smooth flows on surfaces**Speaker:**Adam Kanigowski, The Pennsylvania State University**Location:**MB114We will discuss slow entropy in the class of mixing smooth flows on surfaces. As a consequence we will find countably many non-isomorphic (disjoint) smooth flows. Moreover, we will show that they don't have finite rank.

- September 1st, 2015 (11:15am - 12:05pm)
**Seminar:**Combinatorics/Partitions Seminar**Title:**A Combinatorial Proof of a Relationship Between Maximal (2k-1,2k+1)-cores and (2k-1,2k,2k+1)-cores**Speaker:**James Sellers, Penn State**Location:**MB106Integer partitions which are simultaneously t-cores for distinct values of t have attracted significant interest in recent years. When s and t are relatively prime, Olsson and Stanton have determined the size of the maximal (s,t)-core. When k > 1, a conjecture of Amdeberhan on the maximal (2k-1,2k,2k+1)-core has also recently been verified by numerous authors. In this work, we analyze the relationship between maximal (2k-1,2k+1)-cores and maximal (2k-1,2k,2k+1)-cores. In previous work, Nath noted that, for all k > 0, the size of the maximal (2k-1,2k+1)-core is exactly four times the size of the maximal (2k-1,2k,2k+1)-core and requested a combinatorial interpretation of this unexpected identity. Here, using the theory of abaci, partition dissection, and elementary results relating triangular numbers and squares, we provide such a combinatorial proof. This is joint work with Rishi Nath.

- September 1st, 2015 (01:30pm - 02:20pm)
**Seminar:**Theoretical Biology Seminar**Title:**Note special time: *Thursday* at 12:20pm**Speaker:**Igor Aronson, Argonne National Laboratory**Location:**MB106- September 1st, 2015 (02:30pm - 03:45pm)
**Seminar:**Logic Seminar**Title:**Degrees of unsolvability. Part 1: introduction**Speaker:**Stephen G. Simpson, Penn State**Location:**MB315This series of talks is based on my recent 3-hour tutorial at the Computability in Europe conference in Bucharest. An important 20th century discovery is that there are algorithmically unsolvable problems in virtually every branch of mathematics. Degrees of unsolvability are an attempt to measure the "amount" or "extent" of the unsolvability of such problems. They are based on the idea of "reducibility" of one problem to another. In this introductory talk we define and discuss two particular degree structures: the Turing degrees, and the Muchnik degrees. We point out that the Muchnik degrees are the completion of the Turing degrees, similarly to how the real numbers are the completion of the rational numbers. We discuss specific examples of Turing degrees, and we give at least one specific example of a Muchnik degree which is not a Turing degree. (There are many more such examples, and we shall discuss some of them in later talks in this series.) We point out how the Muchnik degrees provide a rigorous implementation of Kolmogorov's calculus of problems.

- September 1st, 2015 (02:30pm - 03:30pm)
**Seminar:**GAP Seminar**Title:**Yang-Baxter and reflection equations: unifying structures behind quantum and classical integrable systems**Speaker:**Vincent Caudrelier, City University of London**Location:**MB106The Yang-Baxter equation (YBE) is central in the theory of quantum integrable systems. For decades, together with its companion for problems with boundaries (the quantum reflection equation), it has been studied and used in the quantum realm, leading to the area of quantum groups. But it was suggested by Drinfeld in 1990 that the general study of the so-called «set-theoretical YBE » is also important. This can be understood as the problem of finding nonlinear representations of the braid group on arbitrary sets. It turns out that classical integrable PDEs provide a means to construct certain types of such representations, called Yang-Baxter maps, by looking at soliton collisions. I will use the vector nonlinear Schrödinger (NLS) equation as the main example to illustrate the idea. It has its origin in the physics of wave phenomena in fluid dynamics, nonlinear optics, plasma physics or quantum cold gases. After reviewing this, I will show how the new concept of set-theoretical reflection equation naturally emerges by studying solitons in integrable PDEs with a boundary. As before, the problem of finding solutions to this equation can be understood as the question of finding nonlinear representations of the finite Coxeter group of type BCn. I will show how to construct such representations using solitons.

- September 3rd, 2015 (11:15am - 12:05pm)
**Seminar:**Algebra and Number Theory Seminar**Title:**Some Open Problems Arising from my Recent Finite Field Research**Speaker:**Gary Mullen, Penn State University**Location:**MB106We will discuss a number of my favorite open problems and conjectures which have arisen in my recent research related to finite fields. These discussions will focus on a variety of areas including some theoretical topics as well as some topics from combinatorics and coding theory.

- September 3rd, 2015 (12:20pm - 01:10pm)
**Seminar:**Center for Interdisciplinary Mathematics Seminar**Title:**Computational model of cell motility**Speaker:**Igor Aronson, Argonne National Laboratory**Location:**MB114**Abstract:**http://Cell motility and collective migration are among the most important themes in cell biology, mathematical biology, and bioengineering, and are crucial for morphogenesis, wound healing, and immune response in eukaryotic organisms. It is also relevant for the development of effective treatment strategies for diseases such as cancer, and for the design of bioactive surfaces for cell sorting and manipulation. Substrate-based cell motility is, however, a very complex process as both regulatory pathways and physical force generation mechanisms are intertwined. To understand the interplay between adhesion, force generation and motility, we develop a computational model based on the phase field method, which is especially suited to treat the moving and deformable boundaries involved in both individual and collective cell motility. The resulting system of coupled PDEs with the non-local volume-conservation constraint is solved by the quasi-spectral method in a periodic two-dimensional square domain. The model captures all essential phenomenology exhibited by moving cells, including the abrupt onset of motion and the response to external stimuli. We investigate by the means of large-scale GPU computations how cells navigate on substrates with patterned adhesion properties and modulated stiffness of substrate. Such substrates are currently under technological development to collect and sort cells. For multiple cells, the generalized multiphase-field model is able to predict that collective cell migration emerges spontaneously as a result of inelastic collision-type interactions of cells.

- September 3rd, 2015 (01:25pm - 02:25pm)
**Seminar:**MASS Colloquium**Title:**A tour of Pritchard Lab**Speaker:**Diane Henderson, Penn State**Location:**MB114The MASS students will be introduced to the Pritchard Fluids Lab, a physics that is a part of the Mathematics Department.

- September 3rd, 2015 (02:30pm - 03:30pm)
**Seminar:**Noncommutative Geometry Seminar**Title:**Noncommutative Geometry 102: Asymptotics and spectral theory**Speaker:**Nigel Higson, Penn State**Location:**MB106I shall give two lectures introducing some of the ideas that appear in the research of Penn State's noncommutative geometry group. In the first I shall discuss differential and Hilbert space operators, and various sorts of "symbols" that can be attached to them. In the second I shall examine how the general theory applies to Sturm-Liouville operators on a half-line, following some remarkable early work Hermann Weyl that has proved to be very influential in representation theory.

- September 3rd, 2015 (03:30pm - 04:20pm)
**Seminar:**Department of Mathematics Colloquium**Title:**Departmental Reception**Speaker:**Departmental Reception**Location:**MB114- September 4th, 2015 (03:35pm - 04:35pm)
**Seminar:**Probability and Financial Mathematics Seminar**Title:**Algorithmic Stability in Adaptive Data Analysis**Speaker:**Adam Smith, PSU: Computer Science and Engineering Department**Location:**MB106Adaptivity is an important feature of modern data analysis—often, the choice of questions asked about a dataset depends on previous interactions with the same dataset. Adaptivity can arise in a single study (say, when a researcher choses which model to fit based on some exploratory data analysis) or, more subtly, when data sets are shared and re-used across multiple studies. Unfortunately, most of the statistical inference theory used in empirical sciences to control false discovery rates, and in machine learning to avoid overfitting, assumes that the analyses to be performed are selected independently of the data. If the set of analyses run is itself a function of the data, much of this theory becomes invalid. Specifically, suppose there is an unknown distribution P and a set of n independent samples x is drawn from P. We seek an algorithm that, given x as input, “accurately” answers a sequence of adaptively chosen “queries” about the unknown distribution P. How many samples n must we draw from the distribution, as a function of the type of queries, the number of queries, and the desired level of accuracy? In this work we make two new contributions towards resolving this question: 1. We give upper bounds on the number of samples n that are needed to answer "statistical queries" that improve over the bounds in the recent work of Dwork et al. (2015). 2. We prove the first upper bounds on the number of samples required to answer more general families of queries. These include arbitrary low-sensitivity queries and convex risk minimization queries. Our algorithms are based on a connection between generalization error and a distributional stability condition on inference algorithms, called "differential privacy". The talk will be self-contained. Based on joint work with Raef Bassily, Kobbi Nissim, Thomas Steinke, Uri Stemmer and Jon Ullman. http://arxiv.org/abs/1503.04843 For some nontechnical background reading, see Gelman and Lokem, "The Garden of Forking Paths". http://www.stat.columbia.edu/~gelman/research/unpublished/p_hacking.pdf

- September 7th, 2015 (03:35pm - 04:35pm)
**Seminar:**Dynamical systems seminar**Title:**Labor Day**Speaker:**NO SEMINAR**Location:**MB114- September 8th, 2015 (01:30pm - 02:20pm)
**Seminar:**Theoretical Biology Seminar**Title:**TBA**Speaker:**Casian Pantea, West Virginia University

(Host: Carina Curto)**Location:**MB106- September 8th, 2015 (02:30pm - 03:30pm)
**Seminar:**GAP Seminar**Title:**Geometry of broken Lefschetz fibrations**Speaker:**Ramon Vera, Penn State**Location:**MB106In this talk, we will discuss two geometric structures that are naturally associated to broken Lefschetz fibrations: near-symplectic forms and singular Poisson structures. Broken Lefschetz fibrations, or bLfs, were introduced by Auroux, Donaldson, and Katzarkov as mappings from a 4-manifold to the 2-sphere with two types of singularities. The natural geometric structure of these mappings is a near-symplectic form. This connects to an idea of Taubes of studying near-symplectic structures on 4-manifolds as a generalization of symplectic topology. Since then, these fibrations have found applications in low-dimensional topology and symplectic geometry. One reason is that every 4-manifold admits a bLf. After introducing bLfs, we will describe near-symplectic forms and present the generalization in higher dimensions. Using bLfs, we will also see a link to Poisson geometry. Any homotopy class of maps from a 4-manifold to the 2-sphere admits a singular Poisson structure of rank 2, whose foliation is compatible with the fibres of a bLf.

- September 8th, 2015 (02:30pm - 03:29pm)
**Seminar:**Center for Dynamics and Geometry Colloquium**Title:**Flexibility of entropies and Lyapunov exponents for smooth dynamical systems. An overview of a new program and first results.**Speaker:**Anatole Katok, The Pennsylvania State University**Location:**MB114- September 8th, 2015 (03:30pm - 06:00pm)
**Seminar:**Working Seminar: Dynamics and its Working Tools**Title:**More on the flexibility program. ATTENTION: THIS TALK WILL START AT 3;45pm**Speaker:**Anatole Katok, Penn State**Location:**MB114- September 8th, 2015 (04:00pm - 05:00pm)
**Seminar:**Applied Analysis Seminar**Title:**A Priori and A Posteriori Estimates for Consistent Atomistic/Continuum Coupling Methods**Speaker:**Lei Zhang, Shanghai Jiao Tong University**Location:**MB106Atomistic/Continuum(AtC) coupling methods combine the accuracy of potential based atomistic models with the efficiency of coarse grained continuum elasticity models by applying the former only in a small neighborhood of defects such as vacancies, dislocations and crack tips. We develop a framework for the a priori and a posteriori error estimates of AtC methods. This framework can be applied to various AtC methods in 2D, in particular, consistent methods which has no artificial 'ghost force', and corresponding error estimates can be established. Our numerical experiments indicate optimal convergence rates of the resulting algorithms. Adaptive mesh refinement techniques, which can be applied to general AtC mesh generation and refinement will also be discussed.

- September 10th, 2015 (01:25pm - 02:25pm)
**Seminar:**MASS Colloquium**Title:**Congruences for Fishburn Numbers**Speaker:**James Sellers, Penn State**Location:**MB114The Fishburn numbers, originally considered by Peter C. Fishburn, have been shown to enumerate a variety of combinatorial objects. These include unlabelled interval orders on n elements, (2+2)--avoiding posets with n elements, upper triangular matrices with nonnegative integer entries and without zero rows or columns such that the sum of all entries equals n, non--neighbor--nesting matches on [2n], a certain set of permutations of [n] which serves as a natural superset of the set of 231--avoiding permutations of [n], and ascent sequences of length n. In December 2013, Rob Rhoades (Stanford) gave a talk in the Penn State Algebra and Number Theory Seminar in which he described, among other things, the relationship between Fishburn numbers, quantum modular forms, and Ramanujan's mock theta functions. Motivated by Rhoades' talk, George Andrews and I were led to study the Fishburn numbers from an arithmetic point of view - something which had not been done prior. In the process, we proved that the Fishburn numbers satisfy infinitely many Ramanujan--like congruences modulo certain primes p (the set of which we will easily describe in the talk). In this talk, we will describe this result in more detail as well as discuss how our work has served as the motivation for a great deal of related work in the last year by Garvan, Straub, and many others.

- September 10th, 2015 (02:30pm - 03:30pm)
**Seminar:**Noncommutative Geometry Seminar**Title:**There and back again: from the Borsuk-Ulam Theorem to quantum spaces**Speaker:**Piotr Hajac, IMPA**Location:**MB106Assuming that both temperature and pressure are continuous functions, we can conclude that there are always two antipodal points on Earth with exactly the same pressure and temperature. This is the two-dimensional version of the celebrated Borsuk-Ulam Theorem which states that for any continuous map from the n-dimensional sphere to n-dimensional real Euclidean space there is always a pair of antipodal points on the sphere that are identified by the map. Our quest to unravel topological mysteries in the Middle Earth of quantum spaces will begin with gentle preparations in the Shire of elementary topology. Then, after riding swiftly through the Rohan of C*-algebras and Gelfand-Naimark Theorems and carefully avoiding the Mordor of incomprehensible technicalities, we shall arrive in the Gondor of compact quantum groups acting on unital C*-algebras. It is therein that the generalized Borsuk-Ulam-type statements dwell waiting to be proven or disproven. Time permitting, we shall pay tribute to the ancient quantum group SUq(2), and show how the proven nontrivializability of the SUq(2)-principal instanton bundle is a special case of two different noncommutative Borsuk-Ulam-type conjectures. (Based on joint work with Paul F. Baum and Ludwik Dabrowski.)

- September 10th, 2015 (03:30pm - 04:20pm)
**Seminar:**Department of Mathematics Colloquium**Title:**Faculty Meeting**Speaker:**Faculty Meeting**Location:**MB114- September 14th, 2015 (03:35pm - 04:35pm)
**Seminar:**Dynamical systems seminar**Title:**Coarse hyperbolicity and closed orbits for quasigeodesic flows**Speaker:**Steven Frankel, Yale University**Location:**MB114A flow on a 3-manifold is called quasigeodesic when each flowline is coarsely comparable to a geodesic. In this talk we will show that every quasigeodesic flow on a closed hyperbolic 3-manifold has closed orbits, resolving a question of Calegari's. A quasigeodesic flow is defined by a tangent condition. In contrast, a pseudo-Anosov flow is defined by a transverse condition; the transverse structure is hyperbolic in the sense that nearby flowlines diverge in some directions and converge in others. A priori, these transverse and tangent conditions are unrelated. However, when the ambient manifold is hyperbolic, a quasigeodesic flow admits a transverse structure that is remarkably similar to that of a pseudo-Anosov flow, except that it is only *coarsely* hyperbolic. Nevertheless, we can prove a sort of closing lemma for coarsely hyperbolic flows, allowing us to approximate recurrent orbits by closed orbits.

- September 15th, 2015 (02:30pm - 03:45pm)
**Seminar:**Logic Seminar**Title:**TBA**Speaker:**Jan Reimann, Penn State**Location:**MB315- September 15th, 2015 (02:30pm - 03:30pm)
**Seminar:**GAP Seminar**Title:**TBA**Speaker:**Aissa Wade, Penn State**Location:**MB106- September 15th, 2015 (03:30pm - 06:00pm)
**Seminar:**Working Seminar: Dynamics and its Working Tools**Title:**Kakutani Equivalence theory I. An Overview**Speaker:**Adam Kanigowski, Penn State**Location:**MB114- September 16th, 2015 (12:00pm - 01:30pm)
**Seminar:**Geometry Luncheon Seminar**Title:**Products of two symmetries of order two**Speaker:**Oleg Viro, Stony Brook**Location:**MB114Many groups (e.g., the isometry groups of all classical space forms, i.e. Euclidean, hyperbolic and elliptic spaces) are generated by involutions. Moreover, each element can be presented as a product of two involutions. In fact, any group admits an embedding into a group in which any element is a product of two involutions. The presentations of isometries in this form gives rise to a fast pictorial calculation of their compositions. It brings in a geometry into the set of involutions. One can extract a complete set of relations among the symmetries.

- September 17th, 2015 (01:25pm - 02:25pm)
**Seminar:**MASS Colloquium**Title:**Real enumeration problems**Speaker:**Oleg Viro, Stony Brook University**Location:**MB114We will consider problems of mixed setup, in which the initial object belongs to the elementary differential geometry (say, a smoothly immersed generic planar or spherical curve) and we are counting with certain weights the simplest algebraic curves in special position to the original curve. Say, bitangent lines or tritangent circles. The resulting quantity happens to be a topological invariant of the curve, which can be calculated combinatorially.

- September 17th, 2015 (03:30pm - 04:20pm)
**Seminar:**Department of Mathematics Colloquium**Title:**Hyperfields**Speaker:**Oleg Viro - Joint MASS Speaker (Host: Sergei Tabachnikov), Stony Brook University**Location:**MB114In order to define hyperfields, one should allow in the definition of field the addition to be multivalued and adjust the axioms minimally. Hyperfields are not just exotic creatures produced by this abstract play with axioms. They appear naturally and pervade secretly the whole classical mathematics. For example, triangle inequalities describe a multivalued addition of non-negative real numbers. Equipped with this addition and the usual multiplication, this set is a hyperfield. Multiplicative norms in a ring are nothing but homomorphisms to this hyperfield. Hyperfields appear as natural quotient sets of fields and as dequantizations of fields (degenerate members in continuous families of fields). Mysterious fields of characteristic one may be hyperfields. Hyperfields provide an algebraic framework for the tropical geometry, a dequantized algebraic geometry.

- September 18th, 2015 (03:35pm - 04:35pm)
**Seminar:**Probability and Financial Mathematics Seminar**Title:**TBA**Speaker:**Guodong (Gordon) Pang, Penn State University**Location:**MB106- September 22nd, 2015 (02:30pm - 03:45pm)
**Seminar:**Logic Seminar**Title:**TBA**Speaker:**Jan Reimann, Penn State**Location:**MB315- September 22nd, 2015 (02:30pm - 03:30pm)
**Seminar:**GAP Seminar**Title:**TBA**Speaker:**John Roe, Penn State**Location:**MB106- September 22nd, 2015 (03:30pm - 06:00pm)
**Seminar:**Working Seminar: Dynamics and its Working Tools**Title:**Kakutani Equivalence theory II. Some new developments**Speaker:**Adam Kanigowski, Penn State**Location:**MB114- September 29th, 2015 (02:30pm - 03:45pm)
**Seminar:**Logic Seminar**Title:**TBA**Speaker:**Jake Pardo, Penn State**Location:**MB315- September 29th, 2015 (02:30pm - 03:30pm)
**Seminar:**GAP Seminar**Title:**TBA**Speaker:**Paul Baum, Penn State**Location:**MB106