Algebra Seminar

Current contacts: Vasily Dolgushev and Jacklyn Lang and Martin Lorenz

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall.

Algebra Seminars 2013

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 14, 2013 at 13:30, Wachman 617
Oren Ben-Bassat, University of Oxford, Subvarieties and Descent
Monday January 28, 2013 at 13:00, Wachman 617
Brian Paljug, Temple University, An introduction to simplicial methods
Monday February 4, 2013 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, A crash course in algebraic topology
Monday February 11, 2013 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, What is rational homotopy theory?
Monday February 18, 2013 at 13:00, Wachman 617
Zhaoting Wei, University of Pennsylvania, From simplicial sets to simplicial groups and back
Monday February 25, 2013 at 13:00, Wachman 617
Martin Lorenz, Temple University, Groups, Hopf algebras, Lie algebras and all that jazz, I
Monday March 4, 2013 at 13:00, Wachman 617
Martin Lorenz, Temple University, Groups, Hopf algebras, Lie algebras and all that jazz, II
Monday March 18, 2013 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, From dg Lie algebras to dg cocommutative coalgebras and back
Monday April 1, 2013 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Sullivan models
Monday April 15, 2013 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Sullivan models, II
Monday October 7, 2013 at 13:30, Wachman 617
Siddhartha Sahi, Rutgers University, New Brunswick Differential geometry and Lie theory in a Supercategory
Monday October 14, 2013 at 13:30, Wachman 617
Christopher Rogers, University of Gottingen, Heisenberg plus homotopy equals string
Monday October 21, 2013 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, I
Monday October 28, 2013 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, II
Monday November 4, 2013 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, III
Monday November 11, 2013 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, IV
Monday November 18, 2013 at 13:30, Wachman 617
Nitya Kitchloo, Johns Hopkins University, The Stable Symplectic Category
Monday November 25, 2013 at 13:30, Wachman 617
Ed Letzter, Temple University, Minicourse on Representations of algebras, I
Monday December 2, 2013 at 13:30, Wachman 617
Ed Letzter, Temple University, Minicourse on Representations of algebras, II

Algebra Seminars 2024

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 22, 2024 at 13:30, Wachman 527
Algebra Seminar. Organizational Meeting
This is the organizational meeting of the Algebra Seminar.
Monday January 29, 2024 at 13:30, Wachman 527
The Herbrand—Ribet Theorem
Monday February 5, 2024 at 13:30, Wachman 527
Toward a local Langlands correspondence in families
Gilbert Moss, University of Maine

Let $G$ be a connected reductive algebraic group, such as $GL_n$, and let $F$ be a nonarchimedean local field, such as the p-adic numbers $\mathbb{Q}_p$. The local Langlands program describes a connection, which has been established in many cases, between irreducible smooth representations of $G(F)$ and Langlands parameters, which are described in terms of the absolute Galois group of $F$. The local Langlands correspondence "in families" is concerned with an aspect of the local Langlands program that seeks to upgrade this connection beyond irreducible representations to a smoothly varying morphism between natural moduli spaces of $G(F)$ representations and Langlands parameters. We will describe a precise conjecture in this direction and summarize past work establishing the conjecture for $GL_n(F)$, as well as ongoing work toward establishing it for classical groups.
Monday February 12, 2024 at 13:30, Wachman 527
Galois theory for infinite algebraic extensions
Vasily Dolgushev, Temple University

This is an overview of the series of talks on Galois theory for infinite algebraic extensions. I will introduce the set-up and formulate the main theorem of the Galois theory for infinite algebraic extensions (the theorem is due to W. Krull). I will formulate the Nikolov-Segal theorem on finitely generated profinite groups and talk about examples of non-open subgroups of finite index in the absolute Galois group of rational numbers. If time permits, I will also formulate the Shafarevich conjecture.
Monday February 19, 2024 at 13:30, Wachman 527
Introduction to topological groups
Chathumini Kondasinghe, Temple University

This is a brief introduction to topological groups. I will define topological groups, give several examples and prove selected statements. This is a part of the series on talks on Galois theory for infinite algebraic extensions.
Monday February 26, 2024 at 09:30, Wachman Hall 108
Zeroes of Period Polynomials of Cusp Forms
Wissam Raji, American University of Beruit

We consider the period polynomials $r_f (z)$ associated with cusp forms $f$ of weight $k$ on all of $SL_2(\mathbb{Z})$, which are generating functions for the critical L-values of the modular L-function associated to f. In 2014, El-Guindy and Raji proved that if $f$ is an eigenform, then $r_f (z)$ satisfies a “Riemann hypothesis” in the sense that all its zeros lie on the natural boundary of its functional equation. We show that this phenomenon is not restricted to eigenforms, and we provide large natural infinite families of cusp forms whose period polynomials almost always satisfy the Riemann hypothesis. For example, we show that for weights $k ≥ 120$, linear combinations of eigenforms with positive coefficients always have unimodular period polynomials.
tba
Monday March 11, 2024 at 13:30, Wachman 307
Number fields with small discriminants
Frauke Bleher, University of Iowa
The discriminant d_F of a number field F is a basic invariant of F. The smaller d_F is relative to [F:Q], the more elements there are in the ring of integers O_F of F that have a given bounded size. This is relevant, for example, to cryptography using elements of O_F. In 2007, two cryptographers (Peikert and Rosen) asked whether one could give an explicit construction of an infinite family of number fields F having d_F^{1/[F:Q]} bounded by a constant times [F:Q]^d for some d < 1. By an explicit construction we mean an algorithm requiring time bounded by a polynomial in log([F:Q]) for producing a set of polynomials whose roots generate F. In this talk I will describe work with Ted Chinburg showing how this can be done for any d > 0. The proof uses the group theory of profinite 2-groups as well as recent results in analytic number theory.
Monday March 18, 2024 at 13:30, Wachman 527
Introduction to profinite groups
Sean O'Donnell, Temple University

We will start the talk with a review of limits of functors and present selected examples for categories of groups, topological spaces and topological groups. We will also discuss natural transformations and upgrade the limit assignment to a functor. Motivated by Galois Theory, we will present several properties of limits from downward directed posets and their co-initial sub-posets. We will define the profinite completion of a group G as the topological group. If time permits, we will conclude the talk with a practical description of the profinite completion of the ring of integers.
Monday April 8, 2024 at 13:30, Wachman 527
Non-open subgroups of finite index
Aniruddha Sudarshan, Temple University
In this talk, we will show the existence of a non-open subgroup of finite index of the absolute Galois group of the rationals. If time permits, we will also talk about the Nikolov-Segal theorem. Among other things, this theorem implies that every finite index subgroup of a topologically finitely generated profinite group G is open in G.
Monday April 15, 2024 at 13:30, Wachman 527
Orbit problems and the mod p properties of Markoff numbers
William Chen, Rutgers University
Markoff numbers are positive integers which encode how resistant certain irrational numbers are to being approximated by rationals. In 1913, Frobenius asked for a description of all congruence conditions satisfied by Markoff numbers modulo primes p. In 1991 and 2016, Baragar, Bourgain, Gamburd, and Sarnak conjectured a refinement of Frobenius’s question, which amounts to showing that the Markoff equation x^2 + y^2 + z^2 - xyz = 0 satisfies “strong approximation”; that is to say: they conjecture that its integral points surject onto its mod p points for every prime p. In this talk we will show how to prove this conjecture for all but finitely many primes p, thus reducing the conjecture to a finite computation. A key step is to understand this problem in the context of describing the orbits of certain group actions. Primarily, we will consider the action of the mapping class group of a topological surface S on (a) the set of G-covers of S, where G is a finite group, and (b) on the character variety of local systems on S. Questions of this type have been related to many classical problems, from proving that the moduli space of curves of a given genus is connected, to Grothendieck’s ambitious plan to understand the structure of the absolute Galois group of the rationals by studying its action on "dessins d’enfant". We will explain some of this history and why such problems can be surprisingly difficult.
Monday August 26, 2024 at 13:30, Wachman 617
Algebra Seminar: organizational meeting
Monday September 9, 2024 at 13:30, Wachman 617
Galois theory for infinite algebraic extensions
Vasily Dolgushev, Temple University
We will show that the Galois group of an infinite (algebraic) Galois extension is naturally a profinite group and give several examples. We will formulate the main theorem of the Galois theory for infinite algebraic extensions (the theorem is due to W. Krull) and show that, in this set-up, Galois groups have non-closed subgroups.
Monday September 16, 2024 at 13:30, Wachman 617
Local Fields, Inertia Groups, And Frobenius Elements
Xiaoyu Huang, Temple University
We will begin by discussing local fields and valuations, followed by an exploration of inertia groups and Frobenius elements. Next, we will cover unramified extensions and then connect these concepts to the global field setting.
Monday September 23, 2024 at 13:30, Wachman 617
The Chebotarev Density Theorem
Aniruddha Sudarshan, Temple University
Dirichlet's prime number theorem states that there exists infinitely many primes in a given arithmetic progression. Chebotarev's theorem is a vast generalization of this classical result. We state Chebotarev's result and talk about a few of its applications. We will mainly focus on the density result of Frobenius elements in the absolute Galois group of a number field.
Monday September 30, 2024 at 13:20, Wachman 617
Cyclotomic Characters and Compatible Systems of p-adic Galois Representations
Stephen Liu, Temple University
The p-adic cyclotomic character is an important example of one-dimensional Galois representations. We will introduce the construction and some properties of cyclotomic characters, such as ramification and certain compatibility across different primes. Motivated by these properties, we will try to define compatible systems of p-adic Galois representations.
Monday October 7, 2024 at 13:20, Wachman 617
Galois representations on Elliptic curves
Erik Wallace, Temple University
This talk will give a brief introduction to Galois Representations on Elliptic curves, and a survey of some of the main results. We will draw particular attention to connections with previous talks, such as on the inertia group, on the Chebotarev density theorem. Specific examples will be included, as well as some sage code.
Monday October 14, 2024 at 13:20, Wachman 617
Complex Galois representations
Chathumini Kondasinghe, Temple University
In this talk we will show that every complex Galois representation factors through the Galois group of a finite extension of Q. Then we will use this result to show that every Galois representation over C can be seen as a compatible system of Galois representations.
Monday October 21, 2024 at 13:20, Wachman 617
Class Field Theory and 1-Dimensional Galois Representations
Sean O'Donnell, Temple University
This talk will give a brief summary of some results of class field theory and their relevance to the study of 1-dimensional Galois representations of local and global fields. Results covered will include the existence of the local and global Artin homomorphisms, the Kronecker-Weber Theorem, and a brief overview of the connection between local and global class field theory.
Thursday October 31, 2024 at 15:30, Wachman 617
An invitation to the BSD conjecture
Ashay Burungale, University of Texas Austin

The talk plans to present an introduction to the BSD conjecture predicting a mysterious link between rational points on an elliptic curve defined over rational numbers, and analytic properties of the associated Hasse-Weil L-function. Some recent progress will be discussed.
Monday November 4, 2024 at 13:20, Wachman 617
Automorphic functions and harmonic analysis on groups
Ross Griebenow, Temple University
We introduce the theory of automorphic functions for a discrete cofi- nite group Γ ≤ PSL2(R), and the spectral theory of the Laplace operator on H. Combining these ideas, we develop the “Selberg trace formula” which relates the spectral decomposition of square-integrable functions on Γ\H with the geometry of Γ\H. The trace formula allows us to under- stand the properties of a certain zeta function which is analogous to the Riemann zeta-function, and characterize the number of closed geodesics on Γ\H with bounded length.
Friday November 8, 2024 , University of Pennsylvania
Zeta functions and symplectic duality
Yiannis Sakellaridis, Johns Hopkins University

Abstract: The Riemann zeta function was introduced by Euler, but carries Riemann's name because he was the one who extended it to a meromorphic function on the entire complex plane, and discovered its importance for the distribution of primes. It admits a vast class of generalizations, called L-functions, but, as in Riemann's case, one usually cannot prove anything about them without relying on seemingly unrelated integral representations.

In joint work with David Ben-Zvi and Akshay Venkatesh, we elucidate the origin of such integral representations, showing that they are manifestations of a duality between nice Hamiltonian spaces for a pair $(G,\check G)$ of ``Langlands dual'' groups. Over the geometric cousins of number fields -- algebraic curves and Riemann surfaces -- such dualities had been anticipated and constructed in many cases by Gaiotto and others, motivated by mathematical physics.

The first talk will be a gentle and example-oriented introduction to problems in the ``relative'' Langlands program, introducing automorphic L-functions, and various ways of generalizing Riemann's integral representation. We will also talk about the idea of quantization, and why it might be an appropriate framework for studying such constructions. In the second talk, I will introduce a conjectural duality between nice (``hyperspherical'') Hamiltonian spaces, and how it gives rise to a hierarchy of conjectures, both function- and sheaf-theoretic, refining the Langlands correspondence.
Friday November 8, 2024 , University of Pennsylvania
Mac Lane valuations and algebraic geometry
Andrew Obus, CUNY Baruch

Abstract: Almost 90 years ago, Mac Lane discovered the technique of "inductive valuations", which allows one to write down valuations on a rational function field over a discretely valued field in a particularly explicit way. The first talk will be a hands-on introduction to the theory, requiring no background beyond the definition of a discrete valuation (which we will recall). At the end of the talk, we will fast forward 80 years or so and discuss the relationship between Mac Lane valuations and models of the projective line.

In the second talk give various examples of how the relationship between Mac Lane valuations and models of the projective line can be used to resolve singularities and find regular models of arithmetic surfaces. In particular, we will overview how Mac Lane valuations can be used to give explicit minimal regular normal crossings models of superelliptic curves (joint with Padmavathi Srinivasan), and also how they can used to understand “stabilization indices” of curves with potentially multiplicative reduction (joint with Daniele Turchetti).
Monday November 11, 2024 at 13:30, Wachman 617
Sum of Two Squares and Four Squares: A Proof by Modular Forms
Anthony Pasles, Temple University
We solve the Sum of Two Squares and Sum of Four Squares Problems using modular forms. In particular, we develop explicit formulas for the number of representations of a positive integer as both a sum of two squares of integers and as a sum of four squares of integers. We introduce the Jacobi theta series (theta), and remark that understanding the Fourier expansions of powers of this function will provide solutions to the problems in question. Then we verify theta satisfies certain functional equations in order to illustrate that theta squared is a modular form of weight 1 and level Gamma (a specific congruence subgroup). We show this space of modular forms has dimension 1, and then use an Eisenstein series living in the same space to determine the Fourier coefficients of theta squared and solve the sum of two squares problem. We employ a similar method with modular forms of weight 2 and level Gamma to solve the sum of four squares problem.
Monday November 18, 2024 at 13:30, Wachman 617
Introduction to Atkin-Lehner Theory
Violet Nguyen, Temple University
In the 1930s, E. Hecke introduced linear operators to study the space of modular forms of level N, which are now fundamental to the theory. He showed that there is a basis of normalized eigenforms with respect to the commuting operators T_n for n coprime to N, and each eigenspace is one-dimensional. An extension of these results would be done by A.O.L. Atkin and J. Lehner in 1970 for the congruence subgroups Gamma_0(N) and all positive integers n. This talk gives a detailed overview of Atkin-Lehner theory for Gamma_1(N), starting from our knowledge of the Hecke operators T_n on modular forms of level Gamma(1) and coprime n.

Algebra Seminars 2023

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 23, 2023 at 14:30, Wachman 527
Hecke algebras, I
Martin W. Lorenz, Temple University

"Hecke algebras" feature prominently in representation theory, knot theory, the Langlands program, and other areas. In three or four lectures, I will try to consolidate the various different versions of Hecke algebras. The first lecture will adopt the point of view taken in Shimura's "Introduction to the Arithmetic Theory of Automorphic Functions."
Monday January 30, 2023 at 14:30, Wachman 527
Hecke algebras, II
Martin W. Lorenz, Temple University
In the second talk of this series, I will focus on a specific example, first investigated by Iwahori: the Hecke algebra for the general linear group over a finite field and a Borel subgroup. Time permitting, I also will sketch some applications of this Hecke algebra to knot invariants.
Monday February 13, 2023 at 14:30, Wachman 527
Algebraic operations of string topology
Ralph Kaufmann, Purdue University
There are certain algebra structures which arise naturally in many areas of mathematics. We will discuss several of these and how they show up from the ideas of string topology which aims to provide operations on the loop space. This package includes a geometric background for Lie algebras, Poisson (or better odd Poisson = Gerstenhaber algebras). Newer results include the natural occurrence of bialgebra structures and so-called bibrackets. We will introduce these notions and relate them to geometric backgrounds. If time permits, we will show how these structures appear on Hochschild chains and cochain complexes.
Monday February 20, 2023 at 14:30, Wachman 527
Quiver moduli and effective global generation
Svetlana Makarova, The University of Pennsylvania

I will start with defining moduli problems in general and providing a modern understanding. The modern theory
"Beyond GIT", introduced by Alper and being developed by Alper, Halpern-Leistner, Heinloth and others, provides
a "coordinate-free" way of thinking about classification problems. Among giving a uniform philosophy, this allows
to treat problems that can't necessarily be described as global quotients.

I will then revisit and refine a classical result of King that moduli spaces of semistable representations of acyclic quivers
are projective using modern methods. I will define the stack of semistable quiver representations and use a recent
existence result to explain why it admits an adequate moduli space. Our methods allow us to improve the classical results:
I will define a determinantal line bundle on the stack which descends to a semiample line bundle on the moduli space and
provide effective bounds for global generation. For an acyclic quiver, we can observe that this line bundle is ample and thus
the adequate moduli space is projective over an arbitrary noetherian base. This talk is based on a preprint with Belmans, Damiolini, Franzen, Hoskins, Tajakka https://arxiv.org/abs/2210.00033
Monday February 27, 2023 at 14:30, Wachman 527
Does the Grothendieck-Teichmueller group act on algebraic numbers?
Vasily Dolgushev, Temple University

In their paper "Open problems in Grothendieck-Teichmueller theory", Pierre Lochak and Leila Schneps proposed a way to define an action of the Grothendieck-Teichmueller group, GT, on the set of algebraic numbers. There are many questions about this construction. In the first talk in this series, I will recall the group GT, Grothendieck's child's drawings and the action of GT on child's drawings.
Monday March 27, 2023 at 14:30, Wachman 527
Does the Grothendieck-Teichmueller group act on algebraic numbers? Part 2
Vasily Dolgushev, Temple University
I will recall the outer action of the absolute Galois group G_Q of rationals on the fundamental group of an algebraic curve. I will explain how this action gives us a homomorphism from G_Q to the Grothendieck-Teichmueller group and why Belyi's theorem implies that this homomorphism is injective. I hope to get to the open question formulated by Pierre Lochak and Leila Schneps in the title of this admittedly short series of talks.
Monday April 10, 2023 at 14:30, Wachman 527
Artin formalism for non-genuine Garrett-Rankin L-functions
Kazim Buyukboduk, University College Dublin

I will report joint work with D. Casazza and R. Sakamoto, where we formulate a conjecture (and prove it in many cases) on the factorization of a certain triple product p-adic L-function whose range of interpolation is empty. The relevant factorization statement reflects not only the Artin formalism for the underlying family of motives (which decompose as the sum of 2 motives of respective degrees 2 and 6) but also dwells on the interplay between various Gross--Zagier formulae for the relevant complex L-series, and the subtle relationship between the derivatives of complex L-series at their central critical point and p-adic L-functions.
Monday April 17, 2023 at 14:30, Wachman 527
Finiteness theorems in arithmetic
Jaclyn Lang, Temple University

I will briefly recall the main finiteness theorems in algebraic number theory and use them to prove another one: any abelian extension of a number field that has exponent m and is unramified outside a finite set of primes is finite. If time permits, I will briefly sketch how this is used to prove that the group of rational points on an elliptic curve is finitely generated.
Monday May 1, 2023 at 14:30, Wachman 527
TBA
Marco Zambon, KU Leuven
TBA
Monday September 11, 2023 at 13:30, Wachman 617
Algebra Seminar. Organizational Meeting
This is an organizational meeting of the Algebra Seminar. We will discuss where (and how) to steer the "algebra boat" during this fall semester.
Monday September 18, 2023 at 13:30, Wachman 527
Algebra Seminar. An introduction to vexing Hecke algebras, I
Jackie Lang, Temple University

I will discuss work in progress with Robert Pollack and Preston Wake about counting congruences between "vexing" modular forms.
Monday September 25, 2023 at 13:30, tba
Algebra Seminar. An introduction to vexing Hecke algebras, II
Jackie Lang, Temple University

We will discuss the computation of the endomorphism algebra that was introduced last time.
Monday October 2, 2023 at 13:30, Wachman 307
Algebraic Neural Networks: Stability to Deformations
Alejandro Parada-Mayorga, University of Pennsylvania

Convolutional architectures play a central role on countless scenarios in machine learning, and the numerical evidence that proves the advantages of using them is overwhelming. Theoretical insights have provided solid explanations about why such architectures work well. These analysis apparently different in nature, have been performed considering signals defined on different domains and with different notions of convolution, but with remarkable similarities in the final results, posing then the question of whether there exists an explanation for this at a more structural level. In this talk we provide an affirmative answer to this question with a first principles analysis introducing algebraic neural networks (AlgNNs), which rely on algebraic signal processing and representation theory of algebras. In particular, we study the stability properties of algebraic neural networks showing that stability results for traditional CNNs, graph neural networks (GNNs), group neural networks, graphon neural networks, or any formal convolutional architecture, can be derived as particular cases of our results. This shows that stability is a universal property – at an algebraic level – of convolutional architectures, and this also explains why the remarkable similarities we find when analyzing stability for each particular type of architecture.
Monday October 9, 2023 at 13:30, Wachman 527
The Cartan-Brauer triangle
Aniruddha Sudarshan, Temple University

The Cartan-Brauer triangle is a commutative diagram involving certain Grothendieck groups. It is a useful tool in representation theory when passing between different base fields. The maps in the Cartan-Brauer triangle are traditionally denoted by c, d, and e, and the triangle is also commonly referred to as the "cde triangle". In this talk, I will define the Grothendieck groups in question and the aforementioned maps. Time permitting, I will also discuss some basic properties of the Cartan-Brauer triangle.
Monday October 16, 2023 at 13:30, Wachman 527
The one-sided cycle shuffles in the symmetric group algebra
Darij Grinberg, Drexel University
Given a positive integer n, we define n elements t_1, t_2, ..., t_n in the group algebra of the symmetric group S_n by
t_i = the sum of the cycles (i), (i, i+1), (i, i+1, i+2), ..., (i, i+1, ..., n)
(where the cycle (i) is the identity permutation). Note that t_1 is the famous "top-to-random shuffle" element studied by many.
These n elements t_1, t_2, ..., t_n do not commute. However, we show that they can be simultaneously triangularized in an appropriate basis of the group algebra (the "descent-destroying basis"). As a consequence, any rational linear combination of these n elements has rational eigenvalues. Various surprises emerge in describing these eigenvalues and their multiplicities; in particular, the Fibonacci numbers appear prominently.
This talk will include an overview of other families (both well-known and exotic) of elements of these group algebras. A card-shuffling interpretation will be given and some tempting conjectures stated. This is joint work with Nadia Lafrenière.
Monday October 23, 2023 at 13:30, Wachman 527
Exploration of GT-shadows for the dihedral poset
Vasily A. Dolgushev, Temple University

Grothendieck-Teichmueller (GT) shadows form an infinite groupoid GTSh whose set of objects is the poset of certain finite index normal subgroups of the Artin braid group on 3 strands. After a brief reminder of GT-shadows, I will introduce the dihedral subposet of the poset of objects of GTSh. I will also talk about connected components of elements of the dihedral poset in the groupoid GTSh. My talk is based on a paper written this year by Ivan Bortnovskyi and Vadym Pashkovskyi.
Monday November 13, 2023 at 13:30, Wachman 527
Quaternion algebras over local fields
Aniruddha Sudarshan, Temple University
TBA

Algebra Seminars 2022

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday April 25, 2022 at 13:30, Wachman 617
Lie algebras and knots as an excuse
Vasily Dolgushev, Temple University

I hope that Dror Bar-Natan will forgive me for "stealing" one of his quotes and turning it into a title of this talk... Well, the goal of my talk is to advertise a graduate course that I would like to teach during the fall semester of 2022. This course is divided into two parts.
The first part will be devoted the standard toolbox of Lie theory and the second part will be devoted to applications of Lie algebras to finite type invariants of knots.

In my talk, I will define a Lie algebra, give several examples of Lie algebras and formulate Lie's theorem and Cartan's theorem. Then I will talk about objects related to finite type invariants of knots: chord diagrams, open and closed Jacobi diagrams. If time permits, I will also talk about "links" between these objects. Surely, I will not have time to explain how all the objects are related to Lie algebras. So I hope that... this will be a great incentive to take my graduate course (Math 9100) in the fall.
Thursday September 1, 2022 at 14:00, Wachman 527
An introduction to the local Langlands correspondence for GL(2)
Jaclyn Lang, Temple University
This talk will introduce the topic of the Algebra Seminar for Fall 2022. The goal is to learn about the objects involved in the local Langlands correspondence for GL(2) through some simple examples, state classifications of these objects, and then explain how they match up under local Langlands. I'll start by sketching what the two sides of the correspondence are, how they arise naturally, and end with a plan for the seminar. Anyone interested in participating in the seminar is encouraged to attend and volunteer for a talk!
Thursday September 8, 2022 at 14:00, Wachman 527
Overview of representation theory of finite groups
Martin Lorenz, Temple University

Chapter 1 of A. Prasad's notes.
Thursday September 15, 2022 at 14:00, Wachman 527
Parabolically induced representations of GL2(Fq)
Nizar Bou Ezz, Temple University

Chapter 2 of A. Prasad's notes.
Thursday September 22, 2022 at 14:00, Wachman 527
The Heisenberg Group and Weil Representation
Jingfeng Xia, Temple University

Chapter 3.1-3.3 of A. Prasad's notes.
Thursday September 29, 2022 at 14:00, Wachman 527
The Heisenberg Group and Weil Representation II
Vasily Dolgushev, Temple University

I will continue presenting the material of Chapter 3.1-3.3 from A. Prasad's notes.
I am also going to mention constructions from Chapter 3 of Charlotte Chan's undergraduate
thesis "The Weil Representation".
Thursday October 6, 2022 at 14:00, Wachman 527
Constructing cuspidal representations of GL2(Fp)
Aniruddha Sudarshan, Temple University

Chapter 3.4-3.5 of A. Prasad's notes.
Thursday October 13, 2022 at 14:00, Wachman 527
Constructing the Weil representation from the Heisenberg representation
Jaclyn Lang, Temple University

I will explain how to construct the Weil representation over a finite field from the Heisenberg representation we have seen in previous talks.
Thursday October 20, 2022 at 14:00, Wachman 527
Smooth representations of locally profinite groups
Vasily Dolgushev, Temple University
I will talk about smooth representations of locally profinite groups following the material presented in Chapter 1 of the book "The Local Langlands Conjecture for GL(2)" by Bushnell and Henniart.
Thursday October 27, 2022 at 14:00, Wachman 527
Smooth representations of locally profinite groups II
Vasily Dolgushev, Temple University

I will continue talking about smooth representations of locally profinite groups following the material presented in Chapter 1 of the book "The Local Langlands Conjecture for GL(2)" by Bushnell and Henniart. In particular, I will talk about smooth induction and smooth induction with compact supports.
Thursday November 10, 2022 at 14:00, Wachman 617
Measures and Duality
Nizar Bou Ezz, Temple University

I will talk about the material of Section 3 "Measures and Duality" from Chapter 1 of the book "The Local Langlands Conjecture for GL(2)" by Bushnell and Henniart.
Thursday December 1, 2022 at 14:00, Wachman 617
Mackey's irreducibility criterion for smooth representations
Jaclyn Lang, Temple University

I will give a proof of Mackey's irreducibility criterion for smooth representations. This ties up (most of) our construction of some supercuspidal representations of GL2(Qp).

Algebra Seminars 2021

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 1, 2021 at 13:30, the Zoom link is shared with the department
The Lie algebra grt and Kontsevich's graph complex
Vasily Dolgushev, Temple University
This is the first talk in the mini-series of (online) meetings on the Grothendieck-Teichmueller Lie algebra grt and Kontsevich's graph complex. I will give an introduction to the topic and an overview of the goals.
Monday February 8, 2021 at 13:30, The Zoom link is shared with the department
The Lie algebra grt and Kontsevich's graph complex II
Vasily Dolgushev, Temple University
I will talk about Kontsevich's graph complex and its link to the Lie algebra grt.
Monday February 15, 2021 at 13:30, The Zoom link is shared with the department
Kontsevich's graph complex versus the Poisson cochain complex
Vasily Dolgushev, Temple University
The space PV of polyvector fields carries a natural Lie bracket. It is called the Schouten bracket or the Nijenhuis-Schouten bracket. I will show that there is a homomorphism of differential graded (dg) Lie algebras from Kontsevich's graph complex GC to the Chevalley-Eilenberg complex of the Lie algebra PV. If time permits, I will show that, using a Poisson structure alpha, we can construct a (degree 2) chain map from GC to the Poisson cochain complex of alpha.
Monday February 22, 2021 at 13:30, The Zoom link is shared with the department
Kontsevich's graph complex versus the Poisson cochain complex II
Vasily Dolgushev, Temple University
I will finish talking about the link between Kontsevich's graph complex and the Poisson cochain complex. Then we will discuss future plans of this activity.
Monday March 8, 2021 at 13:30, The Zoom link was shared with the department
Introductory Magma session
Vasily Dolgushev, Temple University
We will start with the basic Magma datatypes: integers, rationals, sequences, sets, tuples, and do simple programming exercises using Magma. If time permits, we will work with permutation groups, rings and matrices using Magma. You will benefit from this session more if you have an access to the HPC server "compute".
Monday March 15, 2021 at 13:30, The Zoom link will be shared with the department
An A-infinity analog of the Goldman-Millson Theorem in characteristic p
Patricia Milham, University of Nevada, Reno
Over fields of characteristic zero, the relationship between L-infinity algebras and formal deformation problems is established via the simplicial Maurer-Cartan functor. This functor assigns to each L-infinity algebra L a Kan simplicial set whose vertices are the solutions to the Maurer-Cartan equation in L. However, this equation is not well-defined over fields of positive characteristic, so the Maurer-Cartan simplicial functor cannot be used to study deformation problems in characteristic p. As a step towards resolving this, de Kleijn and Wierstra showed that there is an A-infinity analog to the Maurer-Cartan simplicial functor which can be used to study non-symmetric deformation problems in characteristic p.
In this talk, I will describe work in progress that establishes an A-infinity analog of the Goldman-Millson theorem in characteristic p, as conjectured by by de Kleijn and Wierstra. In particular, I prove that the simplicial Maurer-Cartan functor for A-infinity algebras sends filtration preserving A-infinity quasi-isomorphisms between complete A-infinity algebras to weak equivalences of the corresponding Maurer-Cartan simplicial sets.
Monday March 22, 2021 at 13:30, The Zoom link was shared with the department
Genus zero modular operad & Grothendieck-Teichmueller group's avatar
Noemie C. Combe, Max Planck Institute Leipzig
In this talk, we develop the geometry of canonical stratifications of the spaces $\bar M_{0,n}$ and prepare ground for studying the action of the Galois group or the field of rational numbers upon strata. We introduce a categorical framework for the description of symmetries of genus zero modular operad. This description merges the techniques of recent "persistence homology" studies and the classical formalism of groupoids. We provide a new avatar of profinite Grothendieck-Teichmueller group acting upon this operad, but seemingly not related with representations of the Galois group of all algebraic numbers.
Monday March 29, 2021 at 13:30, the Zoom link is shared with the department
The Merkulov-Willwacher graph complex, moduli spaces of curves and Lie bialgebras
Alexey Kalugin, University of Luxembourg
In 80's Mumford, Penner, Harer, and Thurston related the cohomology of a moduli stack of curves with marked points to the cohomology of a certain combinatorial cochain complex (the Kontsevich-Penner ribbon graph complex). In 2015 Merkulov-Willwacher introduced a version of the Kontsevich-Penner ribbon graph complex (the Merkulov-Willwacher graph complex) which has roots in the deformation theory of Lie bialgebras. In my talk, I am going to compute the cohomology of this graph complex and explain its relation to the recent work of Chan-Galatius-Payne. If time permits I will also explain a (conjectural) relation to the formality problem of the Goldman-Turaev Lie bialgebra studied by Alekseev-Kawazumi-Kuno-Naef.
Monday April 5, 2021 at 13:30, The Zoom link was shared with the department
What is an operad and where to find it?
Xingting Wang, Howard University
Coined in J. Peter May’s The Geometry of Iterated Loop Spaces, an operad is an abstraction of a family of composable functions of n variables for various n, useful for the “bookkeeping” and applications of such families. We will take an adventure in the history of operad with the help of trees and Schur functors. Examples of operads and algebras over them will be discussed in details.
Monday April 12, 2021 at 13:30, The Zoom link was shared with the department
Examples of operads and where to look for them
Vasily Dolgushev, Temple University
This is a continuation of Xingting's talk about operads. I will introduce the endomorphism operad (of a set) and define an algebra over an operad. I will describe the operads that govern magmas, monoids and commutative monoids. If time permits, I will also talk about operads in "more sophisticated" symmetric monoidal categories: topological spaces, vector spaces and groupoids.
Monday April 19, 2021 at 13:30, The Zoom link was shared with the department
Gourmet’s Guide to Operad
Xingting Wang, Howard University
We will take another journey to the world of vector spaces, where commutative algebras, associative algebras, Lie algebras and other types of algebras are all governed under the rule of operads constructed from their free algebras.
Monday April 26, 2021 at 13:15, The Zoom link was shared with the department
Poincaré-Birkhoff-Witt-type theorems for algebras over operads
Pedro Tamaroff, Trinity College Dublin

In joint work with Vladimir Dotsenko https://arxiv.org/abs/1804.06485, we developed a framework to state and prove PBW-type theorems about universal enveloping algebras of various algebraic structures. We used it to recover the classical PBW theorem for universal envelopes of Lie algebras, to prove new PBW-type theorems for other types of algebras, answering a question of J.-L. Loday, and to deduce some PBW-type theorems are unattainable in other situations. In this talk, I will survey the results of https://arxiv.org/abs/1804.06485 and explain the role Groëbner bases for operads (as developed in Dotsenko--Khoroshkin https://arxiv.org/abs/0812.4069) play in our work. Previous knowledge of Groëbner bases is not assumed: we will introduce them along the way.
Monday August 30, 2021 at 14:00, Wachman 617
Algebra Seminar: Discussion of the plans for the fall semester
Monday September 13, 2021 at 13:30, Wachman 617
Growth of groups and algebras, I
Martin Lorenz, Temple University

This series of three talks will deal with "growth" of groups and ofalgebras. Despite its elementary combinatorially flavored definition,the concept of growth has played in important role in algebra andother areas; in fact, for groups, its origins lie in geometry and themain theorems have been contributed by geometers. Certain theoremsabout groups become “easy” when viewed in the context ofalgebras. The talks aim to explore the potential and the currentlimitations of this approach.
Monday September 20, 2021 at 13:30, Wachman 617
Growth of groups and algebras, II
Martin Lorenz, Temple University

After providing some more group-theoretical background, I will focus on“representable” algebras in this talk. By definition, these are algebras that can be embedded into matrix algebras over some commutative algebra. Despite the seemingly elementary nature of this class of algebras, there are quite a few mysteries remaining to be resolved.
Monday September 27, 2021 at 13:30, Wachman 617
Growth of groups and algebras, III
Martin Lorenz, Temple University

The focus in this talk, the last in the series, will remain on affine representable algebras, that is, finitely generated algebras that can be embedded into matrix algebras over some commutative algebra. In particular, I plan to give an outline of the proof that the Gelfand-Kirillov dimension of such an algebra is always an integer. Several open problems will also be formulated.
Monday October 4, 2021 at 13:30, Wachman 617
From the Grothendieck-Teichmueller group to GT-shadows
Vasily Dolgushev, Temple University The Grothendieck-Teichmueller group GT introduced by V. Drinfeld in 1990 connects topology to number theory in fascinating way. GT receives an injective homomorphism from the absolute Galois group G_Q of rational numbers, it acts on Grothendieck's child's drawings and this action is compatible with that of G_Q. I will start this series of talks with defining what I call the gentle version of GT. In the subsequent talks, we will introduce the groupoid of GT-shadows and explain its link to (the gentle version of) GT.
Monday October 11, 2021 at 13:30, Wachman 617
Linking congruences of modular forms to solvable extensions of the rational numbers
Carl Wang-Erickson, University of Pittsburgh

Going back to Ribet's converse to Herbrand's theorem, there is a relationship between two phenomena: congruences, modulo a prime p, of Hecke eigensystems between Eisenstein series and cusp forms; and Galois extensions of the rational numbers with metabelian Galois group. In many cases, this relationship is enough to establish a much more expansive relationship between "all" congruences and "all" solvable Galois extensions: an "R=T" theorem. We will describe situations where studying metabelian extensions is not enough to deduce R=T, but studying three-step solvable (meta-metabelian?) extensions is enough. We will give explicit examples of both of these two types of situations. This includes joint works with Preston Wake (Michigan State University) and with Catherine Hsu (Swarthmore College).
Monday October 18, 2021 at 13:30, Wachman 617
From the Grothendieck-Teichmueller group to GT-shadows II
Vasily Dolgushev, Temple University
I will describe the link between the absolute Galois group of rationals and the gentle version of Grothendieck-Teichmueller group. Then I will start explaining the construction of the groupoid of GT-shadows.
Monday October 25, 2021 at 13:30, Wachman 617
From the Grothendieck-Teichmueller group to GT-shadows III
Vasily Dolgushev, Temple University
GT-shadows form a groupoid GTSh whose objects are certain finite index normal subgroups of Artin braid group B_3 on 3 strands. In my talk, I will introduce this groupoid and describe its link to (the gentle version of) the Grothendieck-Teichmueller group.
Monday November 1, 2021 at 13:30, Wachman 617
Formal exponential maps and the Atiyah class of dg manifolds
Seokbong Seol, Penn State University

Exponential maps arise naturally in the contexts of Lie theory and smooth manifolds. The infinite jets of these classical exponential maps are related to Poincaré-Birkhoff-Witt isomorphism and the complete symbols of differential operators. We will investigate the question on how to extend these maps to dg manifolds. As an application, we will show there is an L-infinity structure on the space of vector fields in connection with the Atiyah class of a dg manifold. In a special case, it is related to Kapranov’s L-infinity structure on the Dolbeault complex of a Kähler manifold. This is a joint work with Mathieu Stiénon and Ping Xu.
Monday November 8, 2021 at 13:30, Wachman 617
From the Grothendieck-Teichmueller group to GT-shadows IV
Jingfeng Xia, Temple University
I will explain how the Grothendieck-Teichmueller group acts on the set of objects of the groupoid GTSh. Using this action we will be able to construct a functor from the transformation groupoid to GTSh. If time permits, I will start talking about the connected components of GTSh related to finite quotients of the full modular group.
Monday November 15, 2021 at 13:30, Wachman 617
Congruences of Eisenstein series via Dieudonné theory of formal groups
Ningchuan Zhang, University of Pennsylvania

In his Antwerp notes, Katz gave an algebro-geometric explanation of p-adic congruences of Eisenstein series of level 1. In this talk, we first reformulate a Riemann-Hilbert type correspondence in Katz's work in terms of Dieudonne modules of formal groups. This reformulation allows us to give a new explanation of congruences of Eisenstein series of level \Gamma_1(N) and character \chi. If time allows, we will further connect congruences of these Eisenstein series to certain group cohomology that computes the denominators of special values of the Riemann zeta function and Dirichlet L-functions.
Monday November 29, 2021 at 13:30, Wachman 617
From the Grothendieck-Teichmueller group to GT-shadows V
Jingfeng Xia, Temple University

In this talk, we will explore GT-shadows of a specific subposet M of finite index normal subgroups of Artin's braid group on 3 strands. The elements of M come from finite quotients of the full modular group. We will describe charming GT-pairs for elements of M. If time permits, we will prove a conjecture that describes all GT-shadows for elements of M. We will propose a new conjecture and formulate an open problem.
Monday December 6, 2021 at 13:30, Wachman 617
From the Grothendieck-Teichmueller group to GT-shadows VI
Vasily Dolgushev
I will talk about the dihedral sub-poset of the set of objects of the groupoid GTSh. I will describe connected components of GTSh of the elements of the dihedral sub-poset and show that every element of this sub-poset is isolated. I will describe the limit of the restriction of the Main Line functor to this sub-poset. If time permits, I will mention child's drawings subordinate to elements of the dihedral sub-poset. This talk is based on a joint work (in preparation) with Jacob Guynee.

Algebra Seminars 2020

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 27, 2020 at 13:30, Wachman 617
Non-Euclidean tetrahedra, mixed Hodge structures and rational elliptic surfaces
Daniil Rudenko, University of Chicago
I will start with explaining the classical relation between scissor congruence theory, volumes of hyperbolic polytopes and mixed Hodge structures. Next I will explain how to construct a rational elliptic surface out of every non-Euclidean tetrahedra. This surface "remembers" the trigonometry of the tetrahedron: the length of edges, dihedral angles and the volume can be naturally computed in terms of the surface. The main property of this construction is self-duality: the surfaces obtained from the tetrahedron and its dual coincide. This leads to some unexpected relations between angles and edges of the tetrahedron. For instance, the cross-ratio of the exponents of the spherical angles coincides with the cross-ratio of the exponents of the perimeters of its faces. The construction is based on relating mixed Hodge structures, associated to the tetrahedron and the corresponding surface.
Monday February 3, 2020 at 13:30, Wachman 617
Distance matrices of trees: invariants, old and new

Apoorva Khare, Indian Institute of Science, Bangalore

In 1971, Graham and Pollak showed that if $D_T$ is the distance matrix of a tree $T$ on $n$ nodes, then $\det(D_T)$ depends only on $n$, not $T$. This independence from the tree structure has been verified for many different variants of weighted bi-directed trees. In my talk:

1. I will present a general setting which strictly subsumes every known variant, and where we show that $\det(D_T)$ - as well as another graph invariant, the cofactor-sum - depends only on the edge-data, not the tree-structure.

2. More generally - even in the original unweighted setting - we strengthen the state-of-the-art, by computing the minors of $D_T$ where one removes rows and columns indexed by equal-sized sets of pendant nodes. (In fact we go beyond pendant nodes.)

3. We explain why our setting is the "most general possible", in that allowing greater freedom in the parameters leads to dependence on the tree-structure.

4. Our results hold over an arbitrary unital commutative ring. This uses Zariski density, which seems to be new in the field, yet is richly rewarding.

We then discuss related results for arbitrary strongly connected graphs, including a third, novel invariant. If time permits, a formula for $D_T^{-1}$ will be presented for trees $T$, whose special case answers an open problem of Bapat-Lal-Pati (Linear Alg. Appl. 2006), and which extends to our general setting a result of Graham-Lovasz (Advances in Math. 1978). (Joint with Projesh Nath Choudhury.)
Monday February 17, 2020 at 13:30, Wachman 617
Hecke algebras and Hecke operators
Martin Lorenz, Temple University
Hecke algebras and their representations have been much studied in algebra and they have also played an important role in the construction of the Jones-Conway polynomial in knot theory. I will start this short series of talks by defining Iwahori-Hecke algebras (for the symmetric groups, as in my current graduate course on representations of braid groups). Then I will discuss a more general group-theoretical approach leading to the same algebras when suitable specialized. Finally, I shall endeavor to explain how the latter approach also yields the familiar Hecke operators in the theory of modular forms. The talks should be widely accessible, not only to students in my aforementioned course.
Monday February 24, 2020 at 13:30, Wachman 617
Hecke algebras and Hecke operators, II
Martin Lorenz, Temple University
To start with, I will specialize the "corner" of the group algebra that was discussed in my first talk to the case where the group $G$ is the general linear group of degree $n$ over the field with $q$ elements and $B$ is the subgroup consisting of the upper triangular matrices in $G$. The resulting corner is then isomorphic to the (one-parameter) Hecke algebra $H_n(q)$ as defined in the first talk. After that, I plan to move on to modular forms and explain how algebras of Hecke operators also arise from an analogous construction.
Monday March 9, 2020 at 13:30, Wachman 617
Hecke algebras and Hecke operators, III
Martin Lorenz, Temple University
I will wrap up this mini-course with a discussion of modular forms. The goal is to explain how (commutative) algebras of Hecke operators arise from a construction analogous to the one that yielded the (noncommutative) Iwahori-Hecke algebras considered in the first two talks.
Monday March 30, 2020 at 13:30, Wachman 617
Geodesic combings and dynamics for finitely generated groups II. POSTPONED
Samuel Taylor, Temple University
POSTPONED
Monday September 21, 2020 at 13:30, Zoom link was shared with the speaker and the math department
Special values of zeta functions of elliptic curves
Niranjan Ramachandran, University of Maryland
I will report on some recent joint work with S. Lichtenbaum on the special value of zeta functions of elliptic curves over Q. We will begin with number fields and their zeta functions and build up from there.
Monday October 26, 2020 at 13:15, A Zoom link will appear
TBA
Sam Taylor, Temple University
Monday November 30, 2020 at 13:30, Zoom link will be added
TBA
Cris Negron, UNC Chapel Hill
TBA

Algebra Seminars 2019

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 28, 2019 at 13:30, Wachman 617
Paschke Categories, K-homology and the Riemann-Roch Transformation
Khashayar Sartipi, University of Illinois at Chicago
For a separable C^*-algebra A, we introduce an exact C^*-category called the Paschke Category of A, which is completely functorial in A, and show that its K-theory groups are isomorphic to the topological K-homology groups of the C^*-algebra A. Then we use the Dolbeault complex and ideas from the classical methods in Kasparov K-theory to construct an acyclic chain complex in this category, which in turn, induces a Riemann-Roch transformation in the homotopy category of spectra, from the algebraic K-theory spectrum of a complex manifold X, to its topological K-homology spectrum. This talk is based on the preprint https://arxiv.org/abs/1810.11951
Monday February 4, 2019 at 13:30, Wachman 617
Detecting free objects in associative algebras: A survey
Edward Letzter, Temple University
In the 1970s, Lichtman asked whether or not the multiplicative group of units of a noncommutative division algebra contains a free subgroup and Makar-Limanov asked whether or not a finitely generated infinite dimensional noncommutative division algebra must contain a free subalgebra. These questions are still open in general, even if many important special cases have been resolved, and have recently received renewed attention. (These questions can be considered in analogy to the Tits Alternative for linear groups as well as Gromov's Theorem on groups with polynomial growth.) My talks will survey both older and newer results.
Monday February 11, 2019 at 13:30, Wachman 617
Detecting free objects in associative algebras, II
Edward Letzter, Temple University
A discussion of more recent results, and still-open questions, on free subalgebras and free multiplicative subsemigroups of associative algebras.
Monday February 18, 2019 at 13:30, Wachman 617
On the Replacement Property for $PSL(2,p)$
Aidan Lorenz, Temple University
The replacement property (or Steinitz Exchange Lemma) for vector spaces has a natural analog for finite groups and their generating sets. For the special case of the groups $PSL(2,p)$, where $p$ is a prime larger than 5, first partial results concerning the replacement property were published by Benjamin Nachman. The main goal of this talk is to outline the methods involved in providing a complete answer for $PSL(2,p)$ (which was accomplished during the Summer of 2018). This talk is based on a paper in preparation joint with Baran Zadeoglu and David Cueto Noval.
Monday February 25, 2019 at 13:30, Wachman 617
Prime Torsion of the Brauer Group of an Elliptic Curve
Charlotte Ure, Michigan State University
The Brauer group of an elliptic curve $E$ is an important invariant with intimate connections to cohomology and rational points. Elements of this group can be described as Morita equivalence classes of central simple algebras over the function field. The Merkurjev-Suslin theorem implies that these classes can be written as tensor product of symbol (or cyclic) algebras. In this talk, I will describe an algorithm to calculate generators and relations of the $q$-torsion ($q$ a prime) of the Brauer group of $E$ in terms of these tensor products over any field of characteristic different from $2$,$3$, and $q$, containing a primitive $q$-th root of unity. This is work in progress.
Monday March 11, 2019 at 13:30, Wachman 617
Catalan Functions and k-Schur functions
Anna Pun, Drexel University
Li-Chung Chen and Mark Haiman studied a family of symmetric functions called Catalan (symmetric) functions which are indexed by pairs consisting of a partition contained in the staircase (n-1, ..., 1,0) (of which there are Catalan many) and a composition weight of length n. They include the Schur functions, the Hall-Littlewood polynomials and their parabolic generalizations. They can be defined by a Demazure-operator formula, and are equal to GL-equivariant Euler characteristics of vector bundles on the flag variety by the Borel-Weil-Bott theorem. We have discovered various properties of Catalan functions, providing a new insight on the existing theorems and conjectures inspired by Macdonald positivity conjecture.
A key discovery in our work is an elegant set of ideals of roots that the associated Catalan functions are k-Schur functions and proved that graded k-Schur functions are G-equivariant Euler characteristics of vector bundles on the flag variety, settling a conjecture of Chen-Haiman. We exposed a new shift invariance property of the graded k-Schur functions and resolved the Schur positivity and k-branching conjectures by providing direct combinatorial formulas using strong marked tableaux. We conjectured that Catalan functions with a partition weight are k-Schur positive which strengthens the Schur positivity of Catalan function conjecture by Chen-Haiman and resolved the conjecture with positive combinatorial formulas in cases which capture and refine a variety of problems. This is joint work with Jonah Blasiak, Jennifer Morse and Daniel Summers. Here are the links to the papers on ArXiv: https://arxiv.org/abs/1804.03701, https://arxiv.org/abs/1811.02490
Monday March 18, 2019 at 13:30, Wachman 617
Classifying Actions of $T_n \otimes T_n$ on Path Algebras of Quivers
Delaney Aydel, Temple University
Let $T_n$ denote the $n$th Taft algebra. We fully classify inner-faithful actions of $T_n \otimes T_n$ on four-vertex Schurian quivers as extensions of the actions of $\mathbb{Z}_n \times \mathbb{Z}_n$. One example will be presented in full, with the remaining results briefly given.
Monday March 25, 2019 at 13:30, Wachman 617
Topics in Galois Theory, I
Martin Lorenz, Temple University
This is the first lecture in a minicourse (probably three lectures) surveying some topics in Galois Theory that are not typically covered in the graduate algebra course (Math 8011/12): inverse Galois theory, Noether's rationality problem, the Chebotarev density theorem,... The Galois Theory portion of Math 8011/12 will be sufficient background for the material presented in this minicourse; so it will be accessible to all students in my current Math 8012 class. No proofs will be given; the goal is to describe some research directions that are of current interest.
Monday April 1, 2019 at 13:30, Wachman 617
Topics in Galois Theory, II
Martin Lorenz, Temple University The second talk in this series will be devoted to the behavior of Galois groups under reduction mod primes. More specifically, given an polynomial $f \in \mathbf{Z}[x]$, I will discuss the question what the (cyclic!) Galois groups of the reductions of $f$ mod various primes tell us about the Galois group of $f$.
Monday April 8, 2019 at 13:30, Wachman 617
Topics in Galois Theory, III
Martin Lorenz, Temple University
First, I will finish (after some reminders) the proof of the reduction-mod-primes recipe for Galois groups from last time. Then I will address the following deficiency of the reduction method: while the full symmetric group is easily detected in this way, small Galois groups require further tools. I will explain a probabilistic method that is based on the Tchebotarov Density Theorem.
Monday April 15, 2019 at 13:30, Wachman 617
What is so algebraic about the algebraic fundamental group?
Vasily Dolgushev, Temple University
A careful definition of the fundamental group in the realm of algebraic geometry requires a lot of effort. In Chapter 4 of his book "Galois groups and fundamental groups", Tamas Szamuely gives a gentle introduction to this topic for algebraic curves. In my two lectures, I will follow Tamas's presentation from this Chapter. Most of proofs will be omitted but I will try give examples. My lectures are partially inspired by Martin Lorenz's recent mini-course.
Monday April 22, 2019 at 13:30, Wachman 617
Kazhdan-Lusztig polynomials of matroids
Jacob Matherne, IAS, Princeton
Kazhdan-Lusztig (KL) polynomials for Coxeter groups were introduced in the 1970s, providing deep relationships among representation theory, geometry, and combinatorics. In 2016, Elias, Proudfoot, and Wakefield defined analogous polynomials in the setting of matroids. In this talk, I will compare and contrast KL theory for Coxeter groups with KL theory for matroids.
I will also associate to any matroid a certain ring whose Hodge theory can conjecturally be used to establish the positivity of the KL polynomials of matroids as well as the "top-heavy conjecture" of Dowling and Wilson from 1974 (a statement on the shape of the poset which plays an analogous role to the Bruhat poset). Examples involving the geometry of hyperplane arrangements will be given throughout. This is joint work with Tom Braden, June Huh, Nick Proudfoot, and Botong Wang.
Monday April 29, 2019 at 13:30, Wachman 617
What is so algebraic about the algebraic fundamental group? Part 2
Vasily Dolgushev, Temple University
This is the second lecture devoted to Chapter 4 of Tamas Szamuely's book "Galois Groups and Fundamental Group". I will define the algebraic fundamental group of a curve and talk about the outer Galois action on the algebraic fundamental group. Examples will be given.
Monday September 9, 2019 at 13:30, Wachman 617
A brief introduction to operads I
Vasily Dolgushev, Temple University
The operad PaB is closely related to the Grothendieck-Teichmueller group GT introduced by Vladimir Drinfeld in 1990. This is the first talk in the mini-course devoted to the operad PaB, GT-shadows and their action on child's drawings. In this talk, I will introduce operads and give various examples. This mini-course should be accessible to first year graduate students.
Monday September 16, 2019 at 13:30, Wachman 617
A brief introduction to operads II
Vasily Dolgushev, Temple University
In the second talk of this series, I will give more examples of operads. I will also talk about one of the central objects of this series, the operad of parenthesized braids PaB. This is an operad in the category of groupoid and it is "assembled from" Artin's braid groups. This operad was introduced by Dmitry Tamarkin in 1998 and a very similar object was introduced by Dror Bar-Natan in 1996.
Monday October 7, 2019 at 13:30, Wachman 617
The operad PaB of parenthesized braids I
Vasily Dolgushev, Temple University
After a brief review of the operad PaB, I will talk about compatible equivalence relations on the truncation of PaB. A large supply of such equivalence relations come from finite index normal subgroups of $B_4$ which are contained in $PB_4$.
Monday October 14, 2019 at 13:30, Wachman 617
Highest-weight representations and global Weyl modules: from classical Lie algebras to Yangians
Prasad Senesi, The Catholic University of America
Highest-weight representations play a prominent role in the representation theory of Lie algebras and quantum groups. Particular examples of highest-weight representations of certain infinite-dimensional Lie algebras called the Weyl modules (for loop and quantum algebras) were introduced by Chari and Pressley in 2000. In this introductory talk, we proceed by example from the classical structure and representation theory of the special linear algebra in dimensions 2 and 3, to that of the corresponding loop algebras and quantum groups. Along the way, the utility of highest-weight representations, and of the (local and global) Weyl Modules, in all of these settings will be described. We will conclude with a discussion of the Yangian, its relation to the quantum loop algebra, and some recent work concerning its global Weyl modules. This is joint work with Bach Nguyen (Temple University) and Matt Lee (University of Illinois at Chicago).
Monday October 21, 2019 at 13:30, Wachman 617
An approach toward supersymmetric cluster algebras
Ashish K. Srivastava, Saint Louis University
In this talk we will propose the notion of cluster superalgebra which is a supersymmetric version of the classical cluster algebra introduced by Fomin and Zelevinsky. We show that the symplectic-orthogonal supergroup $SpO(2|1)$ admits a cluster superalgebra structure and as a consequence of this, we deduce that the supercommutative superalgebra generated by all the entries of a superfrieze is a cluster superalgebra. We also show that the coordinate superalgebra of the super Grassmannian $G(2|0; 4|1)$ of chiral conformal superspace (that is, $(2|0)$ planes inside the superspace $\mathbb C^{4|1}$) is a quotient of a cluster superalgebra.
Monday October 28, 2019 at 13:30, Wachman 617
The operad PaB of parenthesized braids II
Vasily Dolgushev, Temple University
After a brief reminder of the operad PaB, I will talk about the compatible equivalence relations coming from finite index normal subgroups N in $B_4$ which are contained in the pure braid group $PB_4$ on 4 strands. If time will permit, I will introduce GT-shadows.
Monday November 4, 2019 at 13:30, Wachman 617
$k$-Schur and Catalan functions
Jennifer Morse, University of Virginia
We will discuss the inception, subsequent developments, and resolution of a symmetric function conjecture from the 1990's. The $k$-Schur functions arose via computer experimentation with symmetric functions called Macdonald polynomials; they are symmetric functions with coefficients involving a single $t$-parameter. Conjectures that they satisfy many strong and beautiful positivity properties compelled further study. In the special case when $t=1$, it was unexpectedly discovered that $k$-Schur functions are geometrically significant in an area called affine Schubert calculus and for computing Gromov-Witten invariants. However, the intricate combinatorics behind $k$-Schur functions involving the Bruhat order on the affine symmetric group made progress with generic $t$ extremely hard to come by.
We recently discovered a new approach to the study of $k$-Schur functions; they are a subclass of Catalan functions, $G$-equivariant Euler characteristics of vector bundles on the flag variety defined by raising operators and indexed by Dyck paths. This perspective led us to settle decades old conjectures, providing tableaux enumeration formulas to do so. Joint work with Blasiak, Pun, and Summers.
Monday November 11, 2019 at 13:30, Wachman 617
GT-shadows and their action on child's drawings I
Vasily Dolgushev, Temple University
Last time, I introduced GT-shadows and showed that GT-shadows are morphisms in a groupoid whose objects are compatible equivalence relations on PaB. This time, I will talk about child's drawings subordinate to a given compatible equivalence relation on PaB. I will explain in what sense GT-shadows act on child's drawings.
Monday December 2, 2019 at 13:30, Wachman 617
GT-shadows and their action on child's drawings II
Vasily Dolgushev, Temple University
I will introduce child's drawings which are subordinate to a given compatible equivalence relation on PaB. I will introduce the action of GT-shadows on child's drawings as a (co)functor from the groupoid of GT-shadows to the category of finite sets. If time will permit, I will talk about the inverse subordination problem for child's drawings and infinite chains in the poset $NFI_{PB_4}(B_4)$.
Monday December 9, 2019 at 13:30, Wachman 617
Brill-Noether theory and degeneracy loci
Linda Chen, Swarthmore College
Degeneracy loci of morphisms between vector bundles have been used in a wide range of situations, including classical approaches to the Brill-Noether theory of special divisors on curves. I will give an introduction to these connections and describe recent developments, including new K-theoretic formulas for degeneracy loci and their applications to Brill-Noether loci. These recover the formulas of Eisenbud-Harris, Pirola, and Chan-Lopez-Pflueger-Teixidor for Brill-Noether curves. This is joint work with Dave Anderson and Nicola Tarasca.

Algebra Seminars 2018

Current contacts: Vasily Dolgushev, Ed Letzter or Martin Lorenz.

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 22, 2018 at 13:30, Wachman 617
Observations on Hopf algebra actions
Martin Lorenz, Temple University
This series of talks will be concerned with actions of Hopf algebras on other algebras ("quantum invariant theory"). I will present a few observations and then proceed to discuss some speculations and open questions. In the first talk, I plan to focus on "local finiteness."
Monday January 29, 2018 at 13:30, Wachman 617
Observations on Hopf algebra actions, II
Martin Lorenz, Temple University
Continuing with the theme of the first lecture, I will present some known results on group algebras and speculate on possible extensions to more general classes of Hopf algebras. Thus, much of the second lecture will again be concerned with groups and group algebras. It will be possible to understand this lecture even if you missed the first one.
Monday February 5, 2018 at 13:30, Wachman 617
Observations on Hopf algebra actions, III
Martin Lorenz, Temple University
This time, the focus will be on affine algebraic groups, with some outlook/problems for "quantum groups" at the end. Again, the talk will be largely self-contained inasmuch as no details from the first two talks will be assumed. I will remind you of the general Nullstellensatz/Dixmier-Moeglin picture from the second lecture at the beginning of the talk.
Monday February 12, 2018 at 13:30, Wachman Hall Rm. 617
Arithmetic of Operads of Moduli Spaces of Curves
Benjamin Collas, The University of Bayreuth
Following Grothendieck's "Esquisse d'un Programme", the moduli spaces of curves present remarkable arithmetic-geometry properties which translate to an elegant study of the absolute Galois group of rationals. This program results in the construction of Grothendieck-Teichmueller groups that express how the topological combinatoric of the compactification of spaces encaptures their arithmetic. In this duality, the arithmetic side is expressed through the deformation of curves and the notion of tangential structure, while the topological side recently found an elegant expression in terms of homotopy of the little 2-discs operad by Fresse, Horel et al. The goal of this talk is to present how these two sides intersect each other in the study of the absolute Galois group of rationals. We will thoroughly present both aspects in some recent work for genus 0 curves, and explain how it indicates some promising research lines in higher genus.
Monday March 12, 2018 at 13:30, Wachman 617
Vector bundles on the moduli space of curves from affine Lie algebras
Angela Gibney, Rutgers University

In this talk I will give a tour of recent results and open problems about vector bundles on the moduli space of curves constructed from the representation theory of affine Lie algebras. I will discuss how these questions fit into the context of some of the open problems about the birational geometry of the moduli space.
Monday March 19, 2018 at 13:30, Wachman 617
Introduction to infinite Galois extensions
Vasily Dolgushev, Temple University
This series of lectures will be devoted to infinite Galois extensions and I plan to follow Chapter 7 of Milne's book "Fields and Galois Theory". In this talk, I will give a brief reminder of topological groups and introduce the Krull topology on the Galois group.
Monday March 26, 2018 at 13:30, Wachman 617
Introduction to infinite Galois extensions II
Vasily Dolgushev, Temple University
I will introduce infinite Galois extensions and show that the automorphism group of an infinite Galois extension is naturally a topological group (with the Krull topology). If time will permit, I will talk about the fundamental theorem of infinite Galois theory.
Monday April 2, 2018 at 13:30, Wachman 617
Introduction to infinite Galois extensions III
Vasily Dolgushev, Temple University
We will show that, for every Galois extension, the Galois group G is compact (Hausdorff) and totally disconnected. We will also show that G is a projective limit of finite groups with the discrete topology. If time will permit, we will talk about the fundamental theorem of infinite Galois theory.
Monday April 9, 2018 at 13:30, Wachman 617
Infinite dimensional Galois extensions IV
Vasily Dolgushev, Temple University
We will introduce profinite groups and show that the Galois group of an infinite Galois extension is a profinite group. Then we will talk about the fundamental theorem of infinite Galois theory.
Monday April 16, 2018 at 13:30, Wachman 617
Infinite dimensional Galois extensions V
Vasily Dolgushev, Temple University
We will talk about the fundamental theorem of infinite dimensional Galois theory and its consequences.
Monday April 23, 2018 at 13:30, Wachman 617
Infinite dimensional Galois extensions VI
Vasily Dolgushev, Temple University
The story about infinite dimensional Galois extensions of fields is related to the classification of etale algebras over a field. I will give the definition of an etale algebra over a field F and then talk about the classification of etale algebras over F in terms of the absolute Galois group of F.
Monday September 10, 2018 at 13:30, Wachman 617
Moduli spaces of irregular singular connections
Neal Livesay, The University of California, Riverside
The problem of classifying singular differential operators has a long and rich pedigree. An algebro-geometric variant of this problem involves the construction of moduli spaces of irregular singular connections on vector bundles (over the Riemann sphere $\mathrm{P}^1$). Locally (i.e., around a singularity), a selection of a basis for the vector bundle induces a matrix form for the connection. The study of matrices associated to connections is analogous to the study of matrices associated to linear maps, and is amenable to representation-theoretic tools. I will discuss recent work in this direction by D. Sage and N. Livesay. No prior knowledge of connections will be assumed in this talk.
Monday September 17, 2018 at 13:30, Wachman 617
Introduction to cluster algebras I
Bach Nguyen, Temple University
Cluster algebras was invented by Fomin and Zelevinsky around 2000 to study total positivity and canonical bases in Lie theory. Since then they have been applied to study many different subjects in mathematics such as commutative and noncommutative algebraic geometry, number theory, (quiver) representation theory, and mathematical physics.
This talk is a part of series of talks desired to give an inviting introduction to the theory of cluster algebras. We will discuss many motivating examples of cluster algebras and study properties and classification of cluster algebras. We also will cover some interesting connection between cluster algebras with number theory, Lie theory, dynamical system, and Poisson geometry if time permits.
Monday September 24, 2018 at 13:30, Wachman 617
Dynamics of Belyi maps
Valentijn Karemaker, University of Pennsylvania
A (genus 0) Belyi map is a finite map from the projective line to itself, branched exactly at 0, 1, and infinity. Such maps can be described combinatorially by their generating systems. Assuming further that 0, 1, and infinity are both fixed points and the unique ramification points above 0, 1, and infinity respectively yields dynamical Belyi maps, since the resulting maps can be iterated and will therefore exhibit dynamical behaviour. In this talk, we will discuss several results on the dynamics, reductions, and monodromy of dynamical Belyi maps, and the interplay between these. (This is joint work with J. Anderson, I. Bouw, O. Ejder, N. Girgin, and M. Manes.)
Monday October 1, 2018 at 13:30, Wachman 617
Introduction to cluster algebras II
Bach Nguyen, Temple University In this talk we will continue to discuss another motivating example involving the Grassmannian Gr(2,n+3), which also relate to the two examples covered in the first talk. Then we will move on to talk about total positivity. If time permit, we will start the definition of cluster algebras of geometric type.
Monday October 8, 2018 at 13:30, Wachman 617
Introduction to cluster algebras III
Bach Nguyen, Temple University
Cluster algebras of geometric type will be defined and some examples will be given.
Monday October 15, 2018 at 13:30, Wachman 617
Introduction to Cluster Algebras IV
Vasily Dolgushev, Temple University
The talk will be devoted to open questions of the theory of cluster algebras: the positivity conjecture, its strong version and the conjecture on cluster monomials. I will follow closely the paper by Lauren Williams "Cluster algebras: an introduction".
Monday October 22, 2018 at 13:30, Wachman 617
Moduli spaces in rational homotopy theory
He Wang, University of Nevada, Reno
Fix a connected graded commutative algebra $H$ over a field of characteristic zero. To study the set of rational homotopy types with cohomology $H$, Halperin and Stasheff constructed a filtered model for each commutative differential graded algebra $A$ with cohomology $H$ by perturbing the differential of the bigraded model of $H$, while Kadeishvili studied the C-infinity structures on $H$ transferred from $A$.
Motivated by the work of Schlessinger and Stasheff, we construct an explicit L-infinity quasi-isomorphism between the following two (filtered) differential graded Lie algebras: the derivations of the bigraded model of $H$, and the Harrison cochain complex of $H$. Passing to their Deligne-Getzler-Hinich infinity-groupoids, we produce a homotopy equivalence of the corresponding simplicial sets. In particular, on the level of $\pi_0$, we obtain a bijection from the moduli space of filtered models with cohomology $H$ to the moduli space of C-infinity structures on $H$. This talk is based on joint work with Chris Rogers.
Monday October 29, 2018 at 13:30, Wachman 617
An exercise session on quivers and cluster algebras
Bach Nguyen and Vasily Dolgushev, Temple University
This meeting will be devoted to some exercises on quivers and cluster algebras. Some of the exercises come from https://arxiv.org/abs/1608.05735. A list of exercises will be distributed on October 26.
Monday November 26, 2018 at 13:30, Wachman 617
Introduction to braid groups, I
Martin Lorenz, Temple University
This is the first in a series of three lectures that will be accessible to students, including everybody currently taking Math 8011. I will start by briefly reviewing some material that was covered in Math 8011 this semester: the definition of the braid groups (by generators and relations), the visualization of braids (by braid diagrams), and some standard homomorphisms. Then I will dig a little deeper into the structure of the braid groups using the book by Kassel and Turaev as a reference.
Monday December 3, 2018 at 13:30, Wachman 617
Introduction to braid groups, II
Martin Lorenz, Temple University
In the second lecture of this series, the focus will be on group-theoretical properties: torsion freeness, residual finiteness, etc. This material is generally useful in group theory and a fair amount of what I plan to cover is not restricted to braid groups. If you missed the first lecture, you can still follows this talk, since the main facts from last time will be summarized at the beginning.
Monday December 10, 2018 at 13:30, Wachman Hall 617
Introduction to braid groups, III
Martin Lorenz, Temple University
I plan to start by presenting some consequences of the fact (proved last time) that braid groups are finitely presented and residually finite: the Hopf property and solvability of the word problem. Then I will wrap up this series of lectures by discussing orderability of braid groups (following Dehornoy) and some consequences thereof.

Algebra Seminars 2017

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 6, 2017 at 13:30, Wachman Hall, Rm 617
Iterated Thom Spectra and Intermediate Hopf-Galois Extensions of Ring Spectra
Jonathan Beardsley, University of Washington
Given a fiber sequence of n-fold loop spaces X-->Y-->Z, and morphism of n-fold loop spaces Y-->BGL_1(R) for R an E_{n+1}-ring spectrum, we describe a method of producing a new morphism of (n-1)-fold loop spaces Z-->BGL_1(MX), where MX is the Thom spectrum associated to the composition X-->Y-->BGL_1(R). This new morphism has associated Thom spectrum MY, but constructed directly as an MX-module. In particular this induces a relative Thom isomorphism (i.e. a torsor structure) for MY over MX: MY \otimes_{MX} MY = MY \otimes Z. We will see a rough description of this construction as well as many examples. In many cases this torsor condition additionally satisfies a descent condition showing that the unit map MX-->MY is a Hopf-Galois extension of structured ring spectra. Moreover, the composition R-->MX-->MY describes an intermediate Hopf-Galois extension associated to thinking of X as a sub-bialgebra of Y. It seems likely that the methods described in this talk can be modified to apply to homotopy quotients of DGAs.
Monday February 13, 2017 at 13:30, Wachman Hall, Rm 617
Dirac cohomology, Hopf-Hecke algebras and infinitesimal Cherednik algebras
Johannes Flake, Rutgers University
Dirac cohomology has been employed successfully to analyze the representation theory of connected semisimple Lie groups and of degenerate affine Hecke algebras. We study a common generalization of these situations as suggested by Dan Barbasch and Siddhartha Sahi, certain PBW deformations satisfying an orthogonality condition, which we call Hopf-Hecke algebras. Besides the mentioned special cases, they also include infinitesimal Cherednik algebras as new examples. We will discuss a general result relating the Dirac cohomology with central characters, partial results on the classification of Hopf-Hecke algebras, and a concrete computation of the Dirac cohomology for infinitesimal Cherednik algebras of the general linear group. This is joint work with Siddhartha Sahi.
Monday February 20, 2017 at 13:30, Wachman Hall Rm. 617
Maximum nullity, zero forcing, and power domination
Chassidy Bozeman, Iowa State University
Zero forcing on a simple graph is an iterative coloring procedure that starts by initially coloring vertices white and blue and then repeatedly applies the following color change rule: if any vertex colored blue has exactly one white neighbor, then that neighbor is changed from white to blue. Any initial set of blue vertices that can color the entire graph blue is called a zero forcing set. The zero forcing number is the cardinality of a minimum zero forcing set. A well known result is that the zero forcing number of a simple graph is an upper bound for the maximum nullity of the graph (the largest possible nullity over all symmetric real matrices whose (ij)-th entry (for distinct i and j) is nonzero whenever {i,j} is an edge in G and is zero otherwise). A variant of zero forcing, known as power domination (motivated by the monitoring of the electric power grid system), uses the power color change rule that starts by initially coloring vertices white and blue and then applies the following rules: 1) In step 1, for any white vertex w that has a blue neighbor, change the color of w from white to blue. 2) For the remaining steps, apply the color change rule. Any initial set of blue vertices that can color the entire graph blue using the power color change rule is called a power dominating set. We present results on the power domination problem of a graph by considering the power dominating sets of minimum cardinality and the amount of steps necessary to color the entire graph blue.
Monday February 27, 2017 at 13:30, Wachman Hall Rm. 617
Introduction to deformation quantization
Vasily Dolgushev, Temple University
I will introduce the concept of a star product and outline Fedosov's construction for star products on an arbitrary symplectic manifold. I will also state the classification theorem for star products on a symplectic manifold.
Monday March 6, 2017 at 13:30, Wachman Hall, Rm 617
Zero divisors in the Grothendieck ring
Lev Borisov, Rutgers University
The Grothendieck ring of complex algebraic varieties is defined as the space of formal sums $\sum_i a_i [X_i]$ of algebraic varieties with integer coefficients, subject to the relations $[X]=[X-Z]+[Z]$ for closed subvarieties $Z$ of $X$. I will talk about recent developments that show that the class of the affine line is a zero divisor in the Grothendieck ring.
Monday March 20, 2017 at 13:30, Wachman Hall Rm. 617
Deformation quantization of symplectic manifolds: Fedosov's construction
Vasily Dolgushev, Temple University
Equivalence classes of star products on a symplectic manifold M can be described in terms of the second de Rham cohomology of M. I will review Fedosov's construction whose input is a series of closed two forms and whose output is a star product on a symplectic manifold.
Monday March 27, 2017 at 13:30, Wachman Hall Rm. 617
Differential graded (dg) Lie algebras and their Maurer-Cartan elements
Vasily Dolgushev, Temple University
To describe the equivalence classes of star products on an arbitrary Poisson manifold, we need some constructions related to differential graded Lie algebras. I am going to review these constructions in my talk.
Monday April 10, 2017 at 13:30, Wachman Hall Rm. 617
Dimer models on cylinders over Dynkin diagrams
Maitreeyee Kulkarni, Louisiana State University
Let G be a Lie group of type ADE and P be a parabolic subgroup. It is known that there exists a cluster structure on the coordinate ring of the partial flag variety G/P (see the work of Geiss, Leclerc, and Schroer). Since then there has been a great deal of activity towards categorifying these cluster algebras. Jensen, King, and Su gave a direct categorification of the cluster structure on the homogeneous coordinate ring for Grassmannians (that is, when G is of type A and P is a maximal parabolic subgroup). In this setting, Baur, King, and Marsh gave an interpretation of this categorification in terms of dimer models. In this talk, I will give an analog of dimer models for groups in other types by introducing a technique called “constructing cylinders over Dynkin diagrams”, which can (conjecturally) be used to generalize the result of Baur, King, and Marsh.
Monday April 17, 2017 at 13:30, Wachman Hall Rm. 617
Algebraization of Operator Theory
Lia Vas, University of the Sciences
I have been working in algebra and ring theory, in particular with rings of operators, involutive rings, Baer star-rings and Leavitt path algebras. These rings were introduced in order to simplify the study of sometimes rather cumbersome operator theory concepts. For example, a Baer star-ring is an algebraic analogue of an AW star-algebra and a Leavitt path algebra is an algebraic analogue of a graph C-star algebra. Such rings of operators can be studied without involving methods of operator theory. Thus algebraization of operator theory is a common thread between most of the topics of my interest. After some overview of the main ideas of such algebraization, I will focus on one common aspect of some of the rings of operators – the existence of a trace as a way to measure the size of subspaces/subalgebras. In particular, we adapt some desirable properties of a complex-valued trace on a C-star algebra to a larger class of algebras.
Monday April 24, 2017 at 13:30, Wachman Hall Rm 617
Survey on algebras of low Gelfand-Kirillov dimension
Edward Letzter, Temple University
History and background of results on finitely generated algebras of low (i.e., greater than zero but less than three) Gelfand-Kirillov dimension. Beginning with early results of Bergman, Small-Stafford-Warfield (and others), continuing through later results of Artin-Stafford, Bell, Small (and others), and concluding with recent work of Smoktunowicz and collaborators Bell, Lenagan, Small (and others).
Monday May 1, 2017 at 13:30, Wachman Hall Rm. 617
Survey on algebras of low Gelfand-Kirillov dimension, II
Edward Letzter, Temple University
Continuation of Part I, surveying open questions, examples, and results in Gelfand-Kirillov dimension 2. As time permits, I'll discuss some broader features of the theory.
Monday September 11, 2017 at 13:30, Wachman Hall Rm. 617
Introduction to categories
Martin Lorenz, Temple University
I will talk about rudiments of category theory: categories, functors, natural transformations, and adjoint functors. If time will permit, I will also talk about limits and colimits. Various examples will be given.
Monday September 18, 2017 at 13:30, Wachman Hall, Rm. 617
Introduction to categories, II
Vasily Dolgushev, Temple University
I will talk about adjoint functors, limits and colimits. I hope to give many examples. If time will permit, I will start talking about monoidal categories and monoidal functors.
Monday September 25, 2017 at 13:30, Wachman Hall, Rm. 617
Introduction to Categories, III
Vasily Dolgushev, Temple University
I will talk about limits and colimits of functors. I will present various examples including profinite completions of groups. If time will permit, I will start talking about monoidal categories and monoidal functors.
Monday October 2, 2017 at 13:30, Wachman Hall, Room 617
Monoidal categories
Chelsea Walton, Temple University
I will give an introduction to monoidal categories.
Monday October 9, 2017 at 13:30, Wachman Hall Rm. 617
Kernels for Noncommutative Projective Schemes
Blake Farman, University of South Carolina
In their 1994 paper, Noncommutative Projective Schemes, Michael Artin and J.J. Zhang introduce a generalization of usual projective schemes to the setting of not necessarily commutative algebras over a commutative ring. Gonçalo Tabuada in 2005 endows the category of differential graded categories with the structure of a model category and in 2007 Toën shows that its homotopy category is symmetric monoidal closed. In this talk, we’ll give a brief overview of these results, adapting Artin and Zhang’s noncommutative projective schemes for the language of DG categories, and discuss a “geometric” description of this internal Hom for two noncommutative projective schemes. As an immediate application, we give a noncommutative projective derived Morita statement along the lines of Rickard and Orlov.
Monday October 16, 2017 at 13:30, Wachman Hall, Room 617
Extending actions to the Drinfeld double of various Hopf algebras "close" to Taft algebras
Zachary Cline, Temple University
Susan Montgomery and Hans-Juergen Schneider classified all non-trivial $n$-dimensional module algebras $A$ over the Taft algebras $H$ of dimension $n^2$, $n > 2.$ They further showed that each such module structure extends uniquely to make $A$ a module algebra over the Drinfeld double of $H$. We explore what it is about the Taft algebras that leads to this uniqueness, by examining Hopf algebras "close" to the Taft algebras in various directions, and their module algebras.
Monday October 30, 2017 at 13:30, Wachman Hall, 617
The groupoid of labeled planar trees
Abeer Kamal Al-Ahmadieh, Temple University
The groupoid ((Trees)) of labeled planar trees is a convenient tool for defining an operad and for working with operads. I will recall necessary rudiments of graph theory and introduce the groupoid ((Trees)). If time will permit, I will show that every collection (of vector spaces) allows us to define a functor from the groupoid ((Trees)) to the category of vector spaces.
Monday November 6, 2017 at 13:30,
Introduction to algebraic operads
Vasily Dolgushev, Temple University
Algebraic operad is a natural generalization of an associative algebra. Loosely speaking, it is a gadget with an infinite sequence of multiplications indexed by planar labeled trees. For every operad O, we can consider the category of O-algebras (or algebras over O). Thus associative algebras are algebras over a certain operads, Lie algebras are algebras over a certain operad and so on. As Tai-Danae Bradley wrote in her abstract for the graduate seminar, operads have a wide range of applications: deformation theory, algebraic topology, and mathematical physics. So if you want to learn even more about operads, please, come to my talk. I am going to use freely the language of planar labeled trees introduced by Abeer Al-Ahmadieh in her talk.
Monday November 13, 2017 at 13:30, Wachman Hall, Rm. 617
Algebraic operads in action!
Vasily Dolgushev, Temple University
I will talk about solved and unsolved problems which involve operads and related structures. Some of these problems are related to the prounipotent version of the Grothendieck-Teichmueller group, while others are related to the profinite version of the Grothendieck-Teichmueller group.
Monday November 27, 2017 at 13:30, Wachman Hall Rm 617
Formality and Kontsevich-Duflo theorem for Lie pairs
Hsuan-Yi Liao, Penn State University
A Lie pair $(L,A)$ consists of a Lie algebroid $L$ together with a Lie subalgebroid $A$. A wide range of geometric situations can be described in terms of Lie pairs including complex manifolds, foliations, and manifolds equipped with Lie algebra actions. We establish the formality theorem for Lie pairs. As an application, we obtain Kontsevich-Duflo type theorems for Lie pairs. In this talk, I'll start with the case of $\mathfrak{g}$-manifolds, i.e., smooth manifolds equipped with Lie algebra actions. After that I'll explain formality theorem and Kontsevich-Duflo theorem for Lie pairs and other geometrical situations.
Monday December 4, 2017 at 13:30, Wachman Hall, Rm 617
A Lie group analog for the Monster Lie algebra
Lisa Carbone, Rutgers University
The Monster Lie algebra $m$, which admits an action of the Monster finite simple group $M$, was constructed by Borcherds as part of his program to solve the Conway-Norton conjecture about the representation theory of $M$. We associate the analog of a Lie group $G(m)$ to the Monster Lie algebra $m$. We give generators for large free subgroups and we describe relations in $G(m)$.
Monday December 11, 2017 at 13:30, Wachman Hall Rm. 617
On the classification of modular tensor categories
Julia Plavnik, Texas A&M University
The problem of classifying modular tensor categories is motivated by applications to topological quantum computation as algebraic models for topological phases of matter. These categories have also applications in different areas of mathematics like topological quantum field theory, von Neumann algebras, representation theory, and others.
In this talk, we will start by introducing some of the basic definitions and properties of fusion, braided, and modular tensor categories, and we will also give some concrete examples to have a better understanding of their structures.
The idea of the talk is to give an overview of the current situation of the classification program for modular categories. We will explain some of the techniques that we found useful to push further the classification, with a focus on new constructions of modular tensor categories. If time allows, we will mention some results for the super-modular case.

Algebra Seminars 2016

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 25, 2016 at 13:30, Wachman 617
On actions of groups and Hopf algebras
Martin Lorenz, Temple University.
Monday February 1, 2016 at 13:30, Wachman 617
On actions of groups and Hopf algebras, II
Martin Lorenz, Temple University.
Monday February 8, 2016 at 13:30, Wachman 617
On actions of groups and Hopf algebras, III
Martin Lorenz, Temple University.
Monday February 15, 2016 at 13:30, Wachman 617
On the adjoint representation of a finite-dimensional Hopf algebra
Adam Jacoby, Temple University.
Monday February 22, 2016 at 13:30, Wachman 617
On the explicit determination of root numbers of abelian varieties
Maria Sabitova, CUNY.
Monday February 29, 2016 at 13:30, Wachman 617
no seminar: spring break
Monday March 7, 2016 at 13:30, Wachman 617
No quantum symmetry
Chelsea Walton, Temple University.
Monday March 14, 2016 at 13:30, Wachman 617
No quantum symmetry, II
Chelsea Walton, Temple University.
Monday March 21, 2016 at 13:30, Wachman 617
--- talk cancelled; no seminar today ---
Friday March 25, 2016 at 15:00, Wachman 617
On fusion rules and solvability of a fusion category
-Note different day and time- Sonia Natale, University of Cordoba.
Monday March 28, 2016 at 13:30, Wachman 617
Primitive deformations of quantum p-groups, I
Xingting Wang, Temple University
Monday April 4, 2016 at 13:30, Wachman 617
Primitive deformations of quantum p-groups, II
Xingting Wang, Temple University.
Monday April 11, 2016 at 13:30, Wachman 617
Hodge theorems via derived intersections
Marton Hablicsek, University of Pennsylvania.
Monday September 12, 2016 at 13:30, Wachman 617
Graphs on Surfaces. Introduction
Vasily Dolgushev, Temple University
This is the first lecture in the mini-course on dessins d'enfant (child's drawings) and the Grothendieck-Teichmueller group GT. In this lecture, I will introduce the "main characters" of the story and say a few words about the motivation. In the remaining lectures of this mini-course we will talk about the material of the first two chapters of the book "Graphs on surfaces and their applications" by Lando, Zagier and Zvonkin.
Monday September 19, 2016 at 13:30, Wachman Hall Rm. 617
Everything about constellations... Well, almost everything
Vasily Dolgushev, Temple University
A constellation is a sequence of permutations in S_n satisfying some conditions. We will talk about the cartographic group of a constellation, isomorphic (and conjugate) constellations. Finally, we will show that the braid group B_k acts on constellations of length k.
Monday September 26, 2016 at 13:30, Wachman Hall, Rm. 617
A "crash course" on covering spaces
Vasily Dolgushev, Temple University
I will review the notion of the fundamental group and the notion of the covering space. I will briefly outline the classification of connected covering spaces over a connected base. The notion of the monodromy group and the notion of a normal covering will be discussed. Some examples will be given. This talk is a part of the mini-course "Graphs on Surfaces".
Monday October 3, 2016 at 13:30, Wachman Hall, Rm. 617
A "crash course" on covering spaces, II
Vasily Dolgushev, Temple University
I plan to finish the brief review of covering spaces. This talk is a part of the mini-course "Graphs on Surfaces".
Monday October 10, 2016 at 13:30, Wachman Hall Rm. 617
Constellations versus coverings of the punctured sphere
Vasily Dolgushev, Temple University
I will talk about the correspondence between constellations of length k and connected coverings of the sphere with k punctures. I will recall the Riemann-Hurwitz formula and use it to compute the genus of the covering surface corresponding to the constellation. This talk is a part of the mini-course "Graphs on Surfaces".
Monday October 17, 2016 at 13:30, Wachman Hall, Rm. 617
Connections between Demazure flags, Chebyshev polynomials and mock theta functions
Rekha Biswal, The Institute of Mathematical Sciences, Chennai, India
In this talk, we will explore some (surprising) connections between representation theory, combinatorics and number theory. We are interested in studying a family of finite dimensional representations of the hyperspecial parabolic subalgebra of the twisted affine Lie algebra of type $A_2^{(2)}$. These families of modules are of a lot of interest because of their connections to the representation theory of quantum affine algebras. In a joint work with Vyjayanthi Chari and Deniz Kus, it is proved that these modules admit a decreasing filtration whose successive quotients are isomorphic to stable Demazure modules in an integrable highest weight module of sufficiently large level. In particular, we show that any stable level l-Demazure module admits a filtration by level m Demazure modules for $m > l-1$. In this talk, we shall discuss the generating functions which encode the multiplicity of a given Demazure module and prove that the generating functions of graded multiplicities define hypergeometric series and that they are related to $q$-Fibonacci polynomials defined by Carlitz in the case when $l = 1, 2$ and $m = 2, 3$. We will also see that the generating functions of numerical multiplicities are related to Chebyshev polynomials of second kind and the generating functions of graded multiplicities of Demazure modules in local Weyl modules relates to Ramanujan’s fifth order mock theta functions in certain special cases.
Monday October 24, 2016 at 13:30, Wachman Hall Rm. 617
The relation between unimodularity and Calabi-Yau property for Poisson algebras
Xingting Wang, Temple University
Poisson geometry is originated in classical mechanics where one describes the time evolution of a mechanical system by solving Hamilton's equations in terms of the Hamiltonian vector field. Recently, the development of Poisson geometry has deeply entangled with noncommutative algebra and noncommutative geometry.
In this talk, I will introduce Poisson (co)homology using Poisson enveloping algebras. I will explain the unimodularity of Poisson algebras has a close relationship with the Calabi-Yau property of their enveloping algebras. This echoes Dolgushev’s result such that the deformation quantization of a Poisson algebra is a Calabi-Yau algebra if and only if the corresponding Poisson structure is unimodular.
Monday October 31, 2016 at 13:30, Wachman Hall, Rm. 617
The relation between Calabi-Yau property and unimodularity for Poisson algebras
Xingting Wang, Temple University
This is the continuation of the last week's talk.
Monday November 7, 2016 at 13:30, Wachman Hall Rm. 617
Hypermaps, constellations, and triangulations of surfaces
Vasily Dolgushev, Temple University
A hypermap is a bipartite graph $G$ "drawn" on an oriented Riemann surface $S$ so that the complement $S \setminus G$ is a disjoint union of (contractible) cells. I will talk about the correspondence between hypermap and constellations of length 3. This talk is a part of the mini-course "Graphs on Surfaces".
Monday November 14, 2016 at 13:30, Wachman Hall Rm. 617
Hypermaps, constellations and triangulations of surfaces, II
Vasily Dolgushev, Temple University
This is the second talk about hypermaps, constellations and triangulations of surfaces. This talk is a part of the mini-course "Graphs on Surfaces".
Monday November 28, 2016 at 13:30, Wachman Hall Rm. 617
The derived Picard group of an affine Azumaya algebra
Cris Negron, M.I.T.
I will discuss the derived Picard group of an Azumaya algebra A over an affine scheme X. The derived Picard group is a derived invariant which can be seen as a refined version of the group of auto-equivalences on the derived category of quasi-coherent sheaves over A. I will explain how this group decomposes in terms of the Picard group of X, global sections of the constant sheaf of integers on X, the stabilizer of the Brauer class of A in Aut(X), and a mysterious 2-cocycle taking values in the Picard group. We will follow the basic example of the Weyl algebra in finite characteristic throughout.
Monday December 12, 2016 at 13:30, Wachman Hall Rm. 617
Belyi pairs versus hypermaps
Vasily Dolgushev, Temple University
A Belyi pair is a pair $(X,f)$ where $X$ is a Riemann surface and $f$ is a holomorphic map from $X$ to the complex projective plane with the critical values $0$, $1$, and $\infty$. I will talk about the correspondence between Belyi pairs and hypermaps. I will also describe several examples. This talk is a part of the mini-course "Graphs on Surfaces".

Algebra Seminars 2015

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 26, 2015 at 13:30, Wachman 617
Ivan Loseu, Northeastern University, Representation theory of quantized quiver varieties
Monday February 2, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Introduction to simplicial sets, I
Monday February 9, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Introduction to simplicial sets, II
Monday February 16, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Introduction to simplicial sets, III
Monday February 23, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Yes! We definitely need something anodyne...
Monday March 9, 2015 at 13:30, Wachman 617
Geoffrey Schneider, Temple University, Function complexes, I
Monday March 16, 2015 at 13:30, Wachman 617
Geoffrey Schneider, Temple University, Simplicial homotopy groups, I
Monday March 23, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Simplicial homotopy groups, II
Monday March 30, 2015 at 13:30, Wachman 617
Marco Aldi, Virginia Commonwealth University, p-adic Berglund-Huebsch Duality
Monday April 6, 2015 at 13:30, Wachman 617
Brian Paljug, Temple University, Deformation complexes for algebraic operads and their applications (thesis defense)
Monday April 13, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Closed model categories and the corresponding homotopy categories
Monday April 20, 2015 at 13:30, Wachman 617
Ismar Volic, Wellesley College, Homotopy-theoretic methods in the study of spaces of knots and links
Monday April 27, 2015 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, The closed model structure on the category of simplicial sets
Monday October 5, 2015 at 13:30, Wachman 617
Xingting Wang, Temple University, Noncommutative symmetric groups in noncommutative projective algebraic geometry
Monday October 12, 2015 at 13:30, Wachman 617
Kate Poirier, New York City College of Technology, CUNY Chain-level string topology operations
Monday October 19, 2015 at 13:30, Wachman 617
Rajan Mehta, Smith College Linear groupoid structures and representations up to homotopy
Monday October 26, 2015 at 13:30, Wachman 617
Alexandru Chirvasitu, University of Washington, Quantum symmetry for quantum projective spaces
Monday November 2, 2015 at 13:30, Wachman 617
Chelsea Walton, Temple University, Symmetries of Quantum Algebras: Examples
Monday November 9, 2015 at 13:30, Wachman 617
Chelsea Walton, Temple University, Discriminant techniques to compute Aut(A)
Monday November 16, 2015 at 13:30, Wachman 617
Chelsea Walton, Temple University, Quantum Symmetries
Monday November 30, 2015 at 13:30, Wachman 617
Oleksandr Tsymbaliuk, Simons Center for Geometry and Physics, Relation between quantum toroidal algebras of sl_n and affine Yangians of sl_n for different values of n
Monday December 7, 2015 at 13:30, Wachman 617
Xiang Tang, Washington University in St. Louis, Duality of gerbes on orbifolds

Algebra Seminars 2014

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 27, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Introduction to deformation quantization
Monday February 10, 2014 at 13:30, Wachman 617
Geoffrey Schneider, Temple University, A brief introduction to symplectic and Poisson structures
Monday February 17, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, From classical to quantum mechanics, I
Monday February 24, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, From classical to quantum mechanics, II
Monday March 10, 2014 at 13:30, Wachman 617
Hisham Sati, University of Pittsburgh, Twisted generalized cohomology
Monday March 17, 2014 at 13:30, Wachman 613
Vasily Dolgushev, Temple University, What are star-products?
Monday March 24, 2014 at 13:30, Wachman 617
Brian Paljug, Temple University, Fedosov's deformation quantization, I
Monday March 31, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Fedosov's deformation quantization, II
Monday April 7, 2014 at 13:30, Wachman 617
Li Guo, Rutgers University-Newark, On Splitting and Replicating of Operads
Monday April 14, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Fedosov's deformation quantization, III
Monday April 21, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, On the algebraic index theorem
Monday April 28, 2014 at 13:30, Wachman 617
Ed Letzter, Temple University, Continuity is an Adjoint Functor
Monday September 8, 2014 at 13:30, Wachman 617
Martin Lorenz, Temple University, Growth functions in algebra: a challenge, I
Monday September 15, 2014 at 13:30, Wachman 617
Martin Lorenz, Temple University, Growth functions in algebra: a challenge, II
Monday September 22, 2014 at 13:30, Wachman 617
Shilin Yu, University of Pennsylvania, Analytic formal neighborhood and homotopy Lie algebroid
Monday October 6, 2014 at 13:30, Wachman 617
Matthew Tai, University of Pennsylvania, Kirillov's Family Algebras and the Cayley-Hamilton identity
Monday October 13, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, The little disks operad and its close relatives, I
Monday October 20, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, The little disks operad and its close relatives, II
Monday October 27, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Formality for the little disks operad via the configuration space integral, I
Monday November 3, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Formality for the little disks operad via the configuration space integral, II
Monday November 17, 2014 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Formality for the little disks operad via the configuration space integral, III
Monday December 1, 2014 at 11:00, Wachman 507
Pre-Talk: Victor Turchin, Kansas State University, Context free manifold functor calculus and the little discs operad
Monday December 1, 2014 at 13:30, Wachman 617
Victor Turchin, Kansas State University, From manifold functor calculus to graph-complexes

Algebra Seminar 2001

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Wednesday September 5, 2001 at 11:30, Wachman 617
Seymour Lipschutz, Temple University, "Groups and semisymmetric graphs"
Friday September 14, 2001 at 11:30, Wachman 617
Dennis Spellman, Temple University "On discriminating groups" (Part 1)
Friday September 21, 2001 at 11:30, Wachman 617
Dennis Spellman, Temple University, "On discriminating groups" (Part 2)
Friday September 28, 2001 at 11:30, Wachman 617
Martin Lorenz, Temple University, "On Euler classes of crystallographic groups" (Part 1)
Friday October 5, 2001 at 11:30, Wachman 617
talk cancelled
Friday October 12, 2001 at 11:30, Wachman 617
Martin Lorenz, Temple University, "On Euler classes of crystallographic groups" (Part 2)
Friday October 19, 2001 at 11:30, Wachman 617
Leonard Greendlinger, Project SEED and Temple U, Martin Greendlinger, AIPH and Temple U, "Tilings and group diagrams" (Part 1)
Friday October 26, 2001 at 11:30, Wachman 617
Leonard Greendlinger, Project SEED and Temple U, Martin Greendlinger, AIPH and Temple U, "Tilings and group diagram" (Part 2)
Friday November 9, 2001 at 11:30, Wachman 617
Edward Letzter, Temple University, "Effective representation theory" (Part 1)
Friday November 16, 2001 at 11:30, Wachman 617
Edward Letzter, Temple University, "Effective representation theory" (Part 2)
Tuesday November 27, 2001 at 13:30, Wachman 617
Special Seminar: Daniel Sage, Louisiana State U, "Affine flag manifolds and representation theory"
Friday November 30, 2001 at 11:30, Wachman 617
Seymour Lipschutz, Temple University, "Graphs and groups"

Algebra Seminars 2011

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 31, 2011 at 13:30, Wachman 617
Seymour Lipschutz, Temple University, Stallings' pregroup revisited
Monday February 7, 2011 at 13:30, Wachman 617
Martin Lorenz, Temple University, Representations of $S_n$: the method of Okounkov & Vershik, I
Monday February 14, 2011 at 13:30, Wachman 617
Martin Lorenz, Temple University, Representations of $S_n$: the method of Okounkov & Vershik, II
Monday February 21, 2011 at 13:30, Wachman 617
Martin Lorenz, Temple University, Representations of $S_n$: the method of Okounkov & Vershik, III
Monday February 28, 2011 at 13:30, Wachman 617
Joshua Guffin, University of Pennsylvania, Quantum sheaf cohomology
Monday March 14, 2011 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, A beginner's guide to monoidal categories, I
Monday March 21, 2011 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, A beginner's guide to monoidal categories, II
Monday March 28, 2011 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, A beginner's guide to monoidal categories, III
Monday April 4, 2011 at 13:30, Wachman 617
Caterina Consani, Johns Hopkins University, Geometric structures over the absolute point and their arithmetic: an overview
Monday April 11, 2011 at 13:30, Wachman 617
Susan J. Sierra, Princeton University, Some new algebras with quartic growth
Monday April 18, 2011 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, A beginner's guide to monoidal categories, IV
Monday May 2, 2011 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, A beginner's guide to monoidal categories, V
Monday September 12, 2011 at 13:30, Wachman 617
Brian Paljug, Temple University, The Cobar-Bar construction and quasi-isomorphism for algebras, I
Monday September 19, 2011 at 13:30, Wachman 617
Brian Paljug, Temple University, The Cobar-Bar construction and quasi-isomorphism for algebras, II.
Monday September 26, 2011 at 13:30, Wachman 617
Jeremy Pecharich, Mount Holyoke College and UC-Irvine, A deformation complex for modules over deformation quantization.
Monday October 3, 2011 at 13:30, Wachman 617
Ed Letzter, Temple University, Introduction to the categorical approach to noncommutative algebraic geometry, I
Monday October 10, 2011 at 13:30, Wachman 617
Ed Letzter, Temple University, Introduction to the categorical approach to noncommutative algebraic geometry, II.
Monday October 17, 2011 at 13:30, Wachman 617
Ed Letzter, Temple University, Introduction to the categorical approach to noncommutative algebraic geometry, III.
Monday October 24, 2011 at 13:30, Wachman 617
Oren Ben-Bassat, University of Haifa, Moduli stacks of vector bundles on neighborhoods of curves.
Monday November 7, 2011 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Exhausting quantization procedures.
Monday November 21, 2011 at 13:30, Wachman 617
Martin Lorenz, Temple University, Lifting Hopf algebras, I.
Monday November 28, 2011 at 13:30,
no seminar (special joint colloquium with Biology)
Monday December 5, 2011 at 13:30, Wachman 617
Martin Lorenz, Temple University, Lifting Hopf algebras, II.

Algebra Seminars 2010

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 1, 2010 at 13:30, Wachman 617
Martin Lorenz, Temple University, Molecular vibration: group representation theory in chemistry and physics, I
Monday February 8, 2010 at 13:30, Wachman 617
Martin Lorenz, Temple University, Molecular vibration: group representation theory in chemistry and physics, II
Monday February 15, 2010 at 13:30, Wachman 617
Martin Lorenz, Temple University, Molecular vibration: group representation theory in chemistry and physics, III
Monday March 1, 2010 at 13:30, Wachman 617
Martin Lorenz, Temple University, Molecular vibration: group representation theory in chemistry and physics, IV
Monday March 15, 2010 at 13:30, Wachman 617
Martin Lorenz, Temple University, Molecular vibration: group representation theory in chemistry and physics, V
Monday March 22, 2010 at 13:30, Wachman 617
Martin Lorenz, Temple University, Molecular vibration: group representation theory in chemistry and physics, VI
Monday April 5, 2010 at 13:30, Wachman 617
David Futer, Temple University, Bourdon's building and complexes of groups, I
Monday April 12, 2010 at 13:30, Wachman 617
David Futer, Temple University, Bourdon's building and complexes of groups, II
Monday April 19, 2010 at 13:30, Wachman 617
Edward Letzter, Temple University, From naive representation theory to polynomial identities, I
Monday April 26, 2010 at 13:30, Wachman 617
Edward Letzter, Temple University, From naive representation theory to polynomial identities, II
Monday May 3, 2010 at 13:30, Wachman 617
Edward Letzter, Temple University, From naive representation theory to polynomial identities, III
Monday September 13, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Introduction to operads, overview of goals
Monday September 20, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Overview of goals and further examples of operads
Monday September 27, 2010 at 13:00, Wachman 617
Martin Lorenz, Temple University, Variations on the notion of an operad and more examples
Monday October 4, 2010 at 13:00, Wachman 617
Martin Lorenz, Temple University, Labeled rooted trees and Stasheff associahedra
Monday October 11, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, A crash course in Homological Algebra
Monday October 18, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, A crash course in Homological Algebra (Part 2)
Monday October 25, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, A crash course in Homological Algebra (Part 3)
Monday November 1, 2010 at 13:00, Wachman 617
Martin Lorenz, Temple University, Differential graded (co-)algebras and the (co-)bar construction
Monday November 8, 2010 at 13:00, Wachman 617
Martin Lorenz, Temple University, DG (co-)algebras and the (co-)bar construction (Part 2)
Thursday November 18, 2010 at 15:30, Wachman 617
Thomas Willwacher, Harvard University, The graph complex and the Grothendieck-Teichmueller Lie algebra
Monday November 22, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, The bar construction for operads
Monday November 29, 2010 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Cobar construction and the operad A-infinity
Monday December 6, 2010 at 13:00, Wachman 617
Jacob Greenstein, University of California-Riverside, Quivers and Hall algebras

Algebra Seminars 2009

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 2, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Skew power series rings: prime ideals, unique factorization, and Goldie rank, I
Monday February 9, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Skew power series rings: prime ideals, unique factorization, and Goldie rank
Monday February 23, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Skew power series rings: prime ideals, unique factorization, and Goldie rank, III
Monday March 16, 2009 at 13:30, Wachman 617
Clark Alexander, Temple University, Using Lie algebras to approach anharmonic oscillators, I
Monday March 23, 2009 at 13:30, Wachman 617
Clark Alexander, Temple University, Using Lie algebras to approach anharmonic oscillators, II
Monday March 30, 2009 at 13:30, Wachman 617
Clark Alexander, Temple University, Using Lie algebras to approach anharmonic oscillators, III
Monday April 6, 2009 at 13:30, Wachman 617
Anthony Gaglione, Naval Academy, Almost locally free groups and a theorem of Magnus
Monday April 13, 2009 at 13:30, Wachman 617
Max Lieblich, Princeton University, The geometry and arithmetic of division algebras
Wednesday April 15, 2009 at 16:00, Wachman 617
Kirk Soodhalter, Temple University, Progressive GMRES: A Minimum Residual Krylov Method Which is Equivalent to MINRES in the Symmetric Case. Part II
Monday April 20, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Ruminations on finite-dimensional Hopf algebras, I
Monday April 27, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Ruminations on finite-dimensional Hopf algebras, II
Wednesday September 16, 2009 at 16:00, Wachman 617
Fei Xue, Temple University, Numerical Solution of Eigenvalue Problems with Spectral Transformations, Part II.
Monday September 21, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Complete noetherian rings, I
Monday October 5, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Complete noetherian rings, II
Monday October 12, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Complete noetherian rings, III
Monday October 19, 2009 at 13:30, Wachman 617
Ed Letzter, Temple University, Complete noetherian rings, IV
Monday October 26, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, I
Monday November 2, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, II
Monday November 9, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, III
Monday November 16, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, IV
Monday November 23, 2009 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to group representations, V
Monday November 30, 2009 at 13:30, Wachman 617
Leon Ehrenpreis, Temple University, Representations of infinite groups

Algebra Seminars 2008

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 4, 2008 at 13:30, Wachman 617
Ed Letzter, Temple University, Remarks on the representation theory of $PSL_2({\mathbb Z})$, I
Monday February 11, 2008 at 13:30, Wachman 617
Ed Letzter, Temple University, Remarks on the representation theory of $PSL_2({\mathbb Z})$, II
Monday February 18, 2008 at 13:30, Wachman 617
Ed Letzter, Temple University, Remarks on the representation theory of $PSL_2({\mathbb Z})$, III
Monday March 3, 2008 at 13:30, Wachman 617
Martin Lorenz, Temple University, Algebraic groups and rational ideals, I
Monday March 17, 2008 at 13:30, Wachman 617
Martin Lorenz, Temple University, Algebraic groups and rational ideals, II
Monday March 24, 2008 at 13:30, Wachman 617
Orin Chein, Temple University, Strongly right alternative loop rings, III
Monday March 31, 2008 at 13:30, Wachman 617
Orin Chein, Temple University, Strongly right alternative loop rings, IV
Monday April 7, 2008 at 13:30, Wachman 617
Jerry Martindale, University of Mass., One problem leads to another: some remarks on prime rings
Monday April 14, 2008 at 13:30, Wachman 617
Anthony Gaglione, Naval Academy, Universal equivalence of free Burnside groups
Monday September 22, 2008 at 13:30, Wachman 617
Martin Lorenz, Temple University, Algebraic group actions on noncommutative algebras, I
Monday September 29, 2008 at 13:30, Wachman 617
Martin Lorenz , Temple University, Algebraic group actions on noncommutative algebras, II
Monday October 6, 2008 at 13:30, Wachman 617
Clark Alexander, Temple University, Matrix Corepresentations for SLq(N) and SUq(N)
Monday October 13, 2008 at 13:30, Wachman 617
Clark Alexander, Temple University, The Haar state on SUq(N)
Monday October 20, 2008 at 13:30, Wachman 617
Clark Alexander, Temple University, The Haar state on SUq(N), II
Monday November 3, 2008 at 13:30, Wachman 617
Dennis Spellman, Temple University, Almost locally free groups and a theorem of Magnus, I
Monday November 10, 2008 at 13:30, Wachman 617
Dennis Spellman, Temple University, Almost locally free groups and a theorem of Magnus, II

Algebra Seminars 2007

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 29, 2007 at 13:30, Wachman 617
Linhong Wang, Temple University, Skew power series and skew inverse power series rings, I
Monday February 5, 2007 at 13:30, Wachman 617
Linhong Wang, Temple University, Skew power series and skew inverse power series rings, II
Monday February 19, 2007 at 13:30, Wachman 617
Ed Letzter, Temple University, Power series rings in q-commuting variables, I
Monday February 26, 2007 at 13:30, Wachman 617
Ed Letzter, Temple University, Power series rings in q-commuting variables, II
Monday March 12, 2007 at 13:30, Wachman 617
Ales Drapal, Charles University, Prague, Buchsteiner loops
Monday March 19, 2007 at 13:30, Wachman 617
Donald Passman, University of Wisconsin, Group actions on abelian group rings
Monday March 26, 2007 at 13:30, Wachman 617
Martin Lorenz, Temple University, A class of Koszul algebras, I
Monday April 2, 2007 at 13:30, Wachman 617
Martin Lorenz, Temple University, A class of Koszul algebras, II
Monday April 16, 2007 at STARTTIME,
Euler Day -- no seminar
Monday April 23, 2007 at 13:30, Wachman 617
Anthony Gaglione, Naval Academy, Some finiteness properties of infinite groups
Monday April 30, 2007 at 13:30, Wachman 617
Thomas Cassidy, Bucknell University, PBW deformations of graded algebras and generalized Koszul algebras
Monday September 17, 2007 at 13:30, Wachman 617
Martin Lorenz, Temple University, Remarks on group actions, I
Monday September 24, 2007 at 13:30, Wachman 617
Martin Lorenz, Temple University, Remarks on group actions, II
Monday October 1, 2007 at 13:30, Wachman 617
Martin Lorenz, Temple University, Remarks on group actions, III
Monday October 15, 2007 at 13:30, Wachman 617
Dennis Spellman, Temple University, Mr. Lyndon meet Mr. Magnus: formal power series representations of free exponential groups
Monday October 22, 2007 at 13:30, Wachman 617
Dennis Spellman, Temple University, Mr. Lyndon meet Mr. Magnus: formal power series representations of free exponential groups,II
Monday October 29, 2007 at 13:30, Wachman 617
Dennis Spellman, Temple University, Mr. Lyndon meet Mr. Magnus: formal power series representations of free exponential groups, III
Monday November 5, 2007 at 13:30, Wachman 617
David Saltman, CCR-Princeton, meeting with students
Monday November 12, 2007 at 13:30, Wachman 617
Orin Chein, Temple University, Strongly right alternative ring loops, I
Monday November 19, 2007 at 13:30, Wachman 617
Orin Chein, Temple University, Strongly right alternative ring loops, II
Monday November 26, 2007 at 13:30, Wachman 617
Yury Grabovsky, Temple University, Jordan families, I

Algebra Seminars 2006

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 30, 2006 at 13:30, Wachman 617
Ed Letzter, Temple University, Hopf Algebra Extensions and a Conjecture of Kaplansky, I
Monday February 6, 2006 at 13:30, Wachman 617
Ed Letzter, Temple University, Hopf Algebra Extensions and a Conjecture of Kaplansky, II
Monday February 13, 2006 at 13:30, Wachman 617
Ed Letzter, Temple University, Hopf Algebra Extensions and a Conjecture of Kaplansky, III
Monday February 20, 2006 at 13:30, Wachman 617
Martin Lorenz, Temple University, Characters of Hopf algebras, I
Monday February 27, 2006 at 13:30, Wachman 617
Martin Lorenz, Temple University, Characters of Hopf algebras, II
Monday March 13, 2006 at 13:30, Wachman 617
Orin Chein, Temple University, Bol loops of nilpotence class 2, I
Monday March 20, 2006 at 13:30, Wachman 617
Orin Chein, Temple University, Bol loops of nilpotence class 2, II
Monday March 27, 2006 at 13:30, Wachman 617
Igor Rivin, Temple University, Irreducibility of polynomials, matrices, and group automorphisms, I
Monday April 3, 2006 at 13:30, Wachman 617
Igor Rivin, Temple University, Irreducibility of polynomials, matrices, and group automorphisms, II
Monday April 10, 2006 at 13:30, Wachman 617
Igor Rivin, Temple University, Irreducibility of polynomials, matrices, and group automorphisms , III
Monday April 24, 2006 at 13:30, Wachman 617
Frank Grosshans, West Chester University, Vector invariants in arbitrary characteristic
Monday May 1, 2006 at 13:30, Wachman 617
Linhong Wang, Temple University, Remarks on Skew Power Series Rings (after Venjakob and others)
Monday September 18, 2006 at 13:30, Wachman 617
Ed Letzter, Temple University, Remarks on algebras with trace, I
Monday September 25, 2006 at 13:30, Wachman 617
Ed Letzter, Temple University, Remarks on algebras with trace, II
Monday October 9, 2006 at 13:30, Wachman 617
Ed Letzter, Temple University, Remarks on algebras with trace, III
Monday October 16, 2006 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to Koszul algebras, I
Monday October 23, 2006 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to Koszul algebras, II
Monday October 30, 2006 at 13:30, Wachman 617
Martin Lorenz, Temple University, Introduction to Koszul algebras, III
Monday November 6, 2006 at 13:30, Wachman 617
Shulamit Solomon, IAS, Linear group-subgroup pairs with the same invariants
Monday November 13, 2006 at 13:30, Wachman 617
Abed Elhashash, Temple University, Perron-Frobenius properties of general matrices
Monday November 20, 2006 at 13:30, Wachman 617
Lars Kadison, University of Pennsylvania, Is it normal to be depth two?

Algebra Seminars 2005

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 24, 2005 at 13:30, Wachman 617
Ed Letzter, Temple University, Sewing together noncommutative strata
Monday January 31, 2005 at 13:30, Wachman 617
Ed Letzter, Temple University, Sewing together noncommutative strata, II
Monday February 7, 2005 at 13:30, Wachman 617
Ed Letzter, Temple University, Sewing together noncommutative strata, III
Monday February 14, 2005 at 13:30, Wachman 617
Dennis Spellman, Philadelphia University, Unions of varieties and quasivarieties
Monday February 21, 2005 at 13:30, Wachman 617
Dennis Spellman, Philadelphia University, Unions of varieties and quasivarieties, II
Monday February 28, 2005 at 13:30, Wachman 617
Ed Letzter, Temple University, A remark on closed noncommutative subspaces
Monday March 14, 2005 at 13:30, Wachman 617
Igor Rivin, Temple University, Counting in (mostly free) groups
Monday March 21, 2005 at 13:30, Wachman 617
Igor Rivin, Temple University, Counting in (mostly free) groups, II
Monday March 28, 2005 at STARTTIME,
Grosswald Lectures -- no seminar
Monday April 4, 2005 at 13:30, Wachman 617
Igor Rivin, Temple University, Counting in (mostly free) groups, III
Monday April 11, 2005 at 13:30, Wachman 617
Martin Lorenz, Temple University, Sizes of finite groups of rational matrices
Monday April 18, 2005 at 13:30, Wachman 617
Martin Lorenz, Temple University, Sizes of finite groups of rational matrices, II
Monday April 25, 2005 at 13:30, Wachman 617
Gene Abrams, University of Colorado, Leavitt path algebra
Monday May 2, 2005 at 13:30, Wachman 617
Martin Lorenz, Temple University, Sizes of finite groups of rational matrices, III
Monday September 19, 2005 at 13:30, Wachman 617
Ed Letzter, Temple University, Artin-Procesi Theory, I
Monday September 26, 2005 at 13:30, Wachman 617
Ed Letzter, Temple University, Artin-Procesi Theory, II
Monday October 10, 2005 at 13:30, Wachman 617
Seymour Lipschutz, Temple University, Gray code and loopless algorithms for the symmetric groups and other reflection groups
Monday October 17, 2005 at 13:30, Wachman 617
Dennis Spellman, Fairfield University, Finiteness properties in free and residually free groups
Monday October 24, 2005 at 13:30, Wachman 617
Dennis Spellman, Fairfield University, Finiteness properties in free and residually free groups, II
Monday October 31, 2005 at 13:30, Wachman 617
Martin Lorenz, Temple University, Around MacMahon's Master Theorem, I
Monday November 7, 2005 at 13:30, Wachman 617
Martin Lorenz, Temple University, Around MacMahon's Master Theorem, II
Monday November 14, 2005 at 13:30, Wachman 617
Martin Lorenz, Temple University, Around MacMahon's Master Theorem, III
Monday November 21, 2005 at 13:30, Wachman 617
Paul Schupp, University of Illinois at Urbana-Champaign, Experiments with knot groups and one-relator groups
Monday November 28, 2005 at 13:30, Wachman 617
Linhong Wang, Temple University, Nonsplit extensions of simple modules: noetherian theory and non-noetherian examples

Algebra Seminars 2004

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 16, 2004 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Integral representations and multiplicative invariants" (Part 1)
Monday February 23, 2004 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Integral representations and multiplicative invariants" (Part 2)
Monday March 1, 2004 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Integral representations and multiplicative invariants" (Part 3)
Monday March 22, 2004 at 13:30, Wachman 617
Ed Letzter, Temple University, "Graded deformations of quantum groups and representations" (Part 1)
Monday March 29, 2004 at 13:30, Wachman 617
Ed Letzter, Temple University, "Graded deformations of quantum groups and representations" (Part 2)
Monday April 5, 2004 at 13:30, Wachman 617
Ed Letzter, Temple University, "Graded deformations of quantum groups and representations" (Part 3)
Monday April 19, 2004 at 13:30, Wachman 617
Alexei Myasnikov, CUNY, "Different faces of fully residually free groups"
Monday September 20, 2004 at 13:30, Wachman 617
Martin Lorenz, Temple University, Rational field extensions and generic polynomials (Part 1)
Monday September 27, 2004 at 13:30, Wachman 617
Martin Lorenz, Temple University, Rational field extensions and generic polynomials (Part 2)
Monday October 4, 2004 at 13:30, Wachman 617
Tony Gaglioni, Naval Academy, A relationship between two open problems in group theory
Monday October 11, 2004 at 13:30, Wachman 617
Seymour Lipschutz, Temple University, Gray codes and loopless algorithms for Sn and other combinatorial families
Monday October 18, 2004 at 13:30, Wachman 617
Dennis Spellman, Temple University, On a question of Myasnikov (Part 1)
Monday October 25, 2004 at 13:30, Wachman 617
Dennis Spellman, Temple University, On a question of Myasnikov (Part 2)
Monday November 1, 2004 at 13:30, Wachman 617
Boris Datskovsky, Temple University, Density of discriminants of cyclic extensions of prime order (Part 1)
Monday November 8, 2004 at 13:30, Wachman 617
Boris Datskovsky, Temple University, Density of discriminants of cyclic extensions of prime order (Part 2)
Monday November 15, 2004 at 13:30, Wachman 617
Daniel Krashen, Yale University/IAS, Parametrizing subfields in a division algebra

Algebra Seminars 2003

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday February 3, 2003 at 13:30, Wachman 617
Ed Letzter, Temple University, "An algorithm for counting the irreducible representations of finitely presented algebras (in arbitrary characteristic)" (Part 1)
Monday February 10, 2003 at 13:30, Wachman 617
Ed Letzter, Temple University, "An algorithm for counting the irreducible representations of finitely presented algebras (in arbitrary characteristic)" (Part 2)
Monday February 17, 2003 at 13:30, Wachman 617
Martin Lorenz, Temple University, --- postponed ---
Monday February 24, 2003 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Generic matrices and friends" (Part 1)
Monday March 3, 2003 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Generic matrices and friends" (Part 2)
Monday March 17, 2003 at 13:30, Wachman 617
Tony Gaglioni, US Naval Academy, "Nontrivially discriminating groups"
Monday March 24, 2003 at 13:30, Wachman 617
Yuri Grabovsky. Temple University, "Ideals and factors of Jordan pencils"
Monday March 31, 2003 at 13:30,
Matthias Beck's colloquium
Wednesday April 9, 2003 at 13:30, Wachman 617
Vladimir Shpilrain, CCNY, "Statistical properties of algorithms": please note change in day
Monday April 28, 2003 at 13:30, Wachman 617
Leon Ehrenpreis, Temple University, "Chevalley harmonics"
Monday September 15, 2003 at 13:30, Wachman 617
Melanie Butler, Temple University, "On some affine algebras of small Gelfand-Kirillov dimension" (Part 1)
Monday September 22, 2003 at 13:30, Wachman 617
Melanie Butler, Temple University, "On some affine algebras of small Gelfand-Kirillov dimension" (Part 2)
Monday September 29, 2003 at 13:30, Wachman 617
Mohammed Tesemma, Temple University, "Reflection groups and semigroup algebras in multiplicative invariants" (Part 1)
Monday October 13, 2003 at 13:30, Wachman 617
Mohammed Tesemma, Temple University, "Reflection groups and semigroup algebras in multiplicative invariants" (Part 2)
Monday October 20, 2003 at 13:30, Wachman 617
Leon Ehrenpreis, Temple University, "Harmonic functions a la Chevalley" (Part 1)
Monday October 27, 2003 at 13:30, Wachman 617
Leon Ehrenpreis, Temple University, "Harmonic functions a la Chevalley" (Part 2)
Monday November 3, 2003 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Multiplicative invariants, again"
Monday November 24, 2003 at 13:30, Wachman 617
Ed Letzter, Temple University , "On the topological structure of noncommutative affine spaces" (Part 1)
Monday December 1, 2003 at 13:30, Wachman 617
Ed Letzter, Temple University, "On the topological structure of noncommutative affine spaces" (Part 2)
Monday December 8, 2003 at 13:30, Wachman 617
Martin Lorenz, Temple University, "The 3-copies conjecture for multiplicative invariants"

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 30, 2012 at 13:30, Wachman 617
Irina Mitrea, Temple University, A quantitative Open Mapping Theorem for quasi-pseudonormed groups.
Monday February 6, 2012 at 13:30, Wachman 617
John Terilla, Queens College, CUNY, A-infinity algebras ex nihilo.
Monday February 13, 2012 at 13:30, Wachman 617
Scott Wilson, Queens College, CUNY, Algebraic structure of Hochschild complexes and geometric applications.
Monday February 20, 2012 at 13:30, Wachman 617
Ping Xu, Pennsylvania State University, Poisson Lie 2-groups and Lie 2-algebras.
Monday February 27, 2012 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, $A_{\infty}$-algebras, $L_{\infty}$-algebras, $\mathsf{Com}_{\infty}$-algebras and all that jazz.
Monday March 12, 2012 at 13:30, Wachman 617
Martin Lorenz, Temple University, A taste of algebraic geography (Part 1)
Monday March 19, 2012 at 13:30, Wachman 617
Martin Lorenz, Temple University, A taste of algebraic geography (Part 2)
Monday March 26, 2012 at 13:30, Wachman 617
Martin Lorenz, Temple University, A taste of algebraic geography (Part 3).
Monday April 2, 2012 at 13:30, Wachman 617
Martin Lorenz, Temple University, A taste of algebraic geography (Part 4).
Monday April 9, 2012 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Drinfeld associators, the Grothendieck-Teichmueller group and multiple zeta values (Part 1).
Monday April 16, 2012 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Drinfeld associators, the Grothendieck-Teichmueller group and multiple zeta values (Part 2).
Monday April 23, 2012 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Drinfeld associators, the Grothendieck-Teichmueller group and multiple zeta values (Part 3).
Monday April 30, 2012 at 13:30, Wachman 617
Vasily Dolgushev, Temple University, Drinfeld associators, the Grothendieck-Teichmueller group and multiple zeta values (Part 4).
Monday August 27, 2012 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Algebraic operads and homotopy algebras. Overview of goals.
Monday September 10, 2012 at 13:00, Wachman 617
Brian Paljug, Temple University, Planar Trees. Operations with Trees.
Monday September 17, 2012 at 13:00, Wachman 617
Zhaoting Wei, University of Pennsylvania, Pseudo-operads, operads, examples.
Monday September 24, 2012 at 13:00, Wachman 617
Alexander Hoffnung, Temple University, Pseudo-(co)operads, (co)operads, more examples.
Monday October 1, 2012 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Pseudo-(co)operads, (co)operads, more examples II.
Monday October 8, 2012 at 13:00, Wachman 617
Brian Paljug, Temple University, Dg algebras, dg coalgebras, and (co)bar constructions I.
Monday October 15, 2012 at 13:00, Wachman 617
Brian Paljug, Temple University, Dg algebras, dg coalgebras, and (co)bar constructions II.
Monday October 22, 2012 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Homotopy algebras through examples. The talk is canceled.
Monday October 29, 2012 at 13:30, Wachman 617
Mathieu Stienon, The Pennsylvania State University, Atiyah classes and homotopy algebras. The talk will be rescheduled for Nov 26.
Monday November 5, 2012 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Homotopy algebras through examples.
Monday November 19, 2012 at 13:30, Wachman 617
Anton Zeitlin, Columbia University, Classical Field Equations, Courant Algebroids and Vertex Algebras.
Monday November 26, 2012 at 13:30, Wachman 617
Mathieu Stienon, The Pennsylvania State University, Atiyah classes and homotopy algebras.
Monday December 3, 2012 at 13:00, Wachman 617
Vasily Dolgushev, Temple University, Operads governing homotopy algebras. Wrapping up.

Algebra Seminar 2012

Current contacts: Vasily Dolgushev, Ed Letzter, Martin Lorenz or Chelsea Walton

The Seminar usually takes place on Mondays at 1:30 PM in Room 617 on the sixth floor of Wachman Hall. Click on title for abstract.

Monday January 28, 2002 at 13:30, Wachman 617
Seymour Lipschutz, Temple University, Organizational meeting, and: "Groups and semisymmetric graphs: Epilog"
Monday February 4, 2002 at 13:30, Wachman 617
Tony Giaquinto, Univ. of Pennsylvania, "Generators, relations and bases for Schur algebras"
Monday February 11, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Continuous functors between noncommutative spectra" (Part 1)
Monday February 18, 2002 at 13:30, Wachman 617
Tony Gaglioni, Naval Academy, "A survey of discriminating and squarelike groups"
Monday February 25, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Continuous functors between noncommutative spectra" (Part 2)
Monday March 4, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Continuous functors between noncommutative spectra" (Part 3)
Monday March 18, 2002 at 13:30, Wachman 617
Yuri Grabovsky, Temple University, "Some algebra arising in material science" (Part 1)
Monday March 25, 2002 at 13:30, Wachman 617
Yuri Grabovsky, Temple University, "Some algebra arising in material science" (Part 2)
Monday April 1, 2002 at 13:30, Wachman 617
Marc Renault, Temple University, "Computing generators for rings of multiplicative invariants"
Monday April 8, 2002 at 13:30, Wachman 617
Alexei Miasnikov, City College CUNY, "Pregroups, length functions, and infinite words"
Monday April 15, 2002 at 13:30, Wachman 617
Dennis Spellman, Temple University, "On squarelike groups"
Monday April 22, 2002 at 13:30, Wachman 617
Martin Lorenz, Temple Unversity, "Geometric methods in invariant theory of finite groups" (Part 1)
Monday April 29, 2002 at 13:30, Wachman 617
Chris Pappacena, Baylor University, "The BGQ spectral sequence for noncommutative spaces"
Monday May 6, 2002 at 13:30, Wachman 617
Martin Lorenz, Temple Unversity, "Geometric methods in invariant theory of finite groups" (Part 2)
Monday September 23, 2002 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Multiplicative invariant theory" (Part 1)
Tuesday October 1, 2002 at 10:00, Wachman 617
Warren Smith, Temple University and DIMACS, "Quaternions, octonions, and now, 16-ons and 2n-ons": -please note change in day and time-
Monday October 7, 2002 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Multiplicative invariant theory" (Part 2)
Monday October 14, 2002 at 13:30, Wachman 617
Martin Lorenz, Temple University, "Multiplicative invariant theory" (Part 3)
Monday October 28, 2002 at 13:30, Wachman 617
Alberto Birmajer, Temple University, "Polynomial detection of matrix subalgebras" (Part 2)
Monday November 4, 2002 at 13:30, Wachman 617
Alberto Birmajer, Temple University, "Polynomial detection of matrix subalgebras" (Part 3)
Monday November 11, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Quantum groups in dimensions 1 and 2" (Part 1)
Monday November 18, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Quantum groups in dimensions 1 and 2" (Part 2)
Monday November 25, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Quantum groups in dimensions 1 and 2" (Part 3)
Monday December 2, 2002 at 13:30,
Two colloquia - no seminar -
Monday December 9, 2002 at 13:30, Wachman 617
Ed Letzter, Temple University, "Quantum groups in dimensions 1 and 2" (Part 4)