July 2013

Friday 05 
15:00  SEMINAR  Groups and Combinatorics Seminar, On PseudoInjective Group Algebra

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Abstract:
A module M is called pseudoinjective if for every submodule X of M, any monomorphism f : X > M can be extended to a homomorphism g : M > M. Let K be a field and G a group. It is well known that a group algebra K[G] is selfinjective if and only if the group G is finite. We show that if a group algebra K[G] is pseudoinjective then G is locally finite. It is also shown that if a group algebra K[G] has no nontrivial idempotent then K[G] is pseudoinjective if and only if it is selfinjective. Furthermore, if K[G] is pseudoinjective then K[H] is pseudoinjective for every subgroup H of G.


August 2013

Friday 02 
15:00  SEMINAR  Groups and Combinatorics Seminar, Maximal arcs that contain regular hyperovals

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Abstract:
A maximal narc is a set of q(n1) + n points in a projective plane such that any line of the plane meets 0 or n of them. The most common maximal arcs, called the Mathon arcs, are constructed by taking the union of regular hyperovals. In particular, there are no known maximal 4arcs other than the Mathon arcs and their duals. This talk will cover the history of maximal arcs, including the construction of the Mathon arcs, as well as new results. The most important result is that every maximal 4arc in PG(2,q), that is a union of regular hyperovals, is a Mathon arc. This is joint work with Nicola Durante from Universita' degli Studi di Napoli Federico II.

Friday 09 
15:00  SEMINAR  Groups and Combinatorics Seminar, Semisymmetric graphs of prime valency

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Abstract:
A graph is called Xsemisymmetric if the group X acts transitively on edges, but not on vertices. Such graphs are necessarily bipartite and biregular, of valencies k and l say. There is a natural relationship between semisymmetric graphs and amalgams of groups. This leads us to consider the "universal" example: the biregular tree T of valencies k and l. The conjecture of Goldschmidt says that when k and l are primes there are (up to isomorphism) finitely many locally finite groups X such that T is Xsemisymmetric (X is locally finite if it acts with finite vertex stabilisers). For k=l=3 it was shown by Goldschmidt that there are 15 such groups. In the talk I will give an overview of some results which bear relevance to the conjecture, and report on some recent progress with respect to certain small primes.

Sunday 11 
10:00  OPEN DAY  2013 Open Day : Join us for our Centenary Open Day and experience all that UWA has to offer

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Come and find out about our undergraduate and postgraduate courses, career options, scholarship opportunities, our valuable research, community programs and facilities.
There's also residential college tours, handson activities, live music, entertainment, and plenty of fun activities for the whole family as we celebrate our 100th birthday.

Friday 16 
15:00  SEMINAR  Groups and Combinatorics Seminar, Decomposing tensor products over fields of small characteristic

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Abstract:
One motivation for this talk comes from representation theory: decomposing a tensor product of irreducible (or indecomposable) representations as a sum of smaller degree irreducible (or indecomposable) representations. Other motivations come from quantum mechanics and Frobenius algebras.
Consider an $r imes r$ matrix $K_r$ over a field $F$ with 1s on the main diagonal and first upper diagonal (positions $(i,i)$ and $(i,i+1)$) and zeros elsewhere. The tensor product $K_r times K_s$ is a unipotent matrix whose Jordan canonical form is determined by some partition of $rs$. We will show that this partition enjoys surprising symmetries: duality, periodicity, regularity. Our original motivation was to study this partition when the characteristic $p$ of $F$ is small (i.e. $p<r+s1$). The large characteristic case ($p e r+s1$) was solved recently by Iima and Iwamatsu.
This is joint work with Cheryl E. Praeger and Binzhou Xia.

Friday 23 
15:00  SEMINAR  Groups and Combinatorics Seminar, Breaking symmetries of infinite graphs

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Abstract:
Symmetry breaking involves colouring the elements of a combinatorial structure so that the resulting structure has no nontrivial symmetries. In this talk I'll give an introduction to symmetry breaking, with a particular focus on infinite graphs. I'll also discuss a number of research directions that are opening up. Along the way I'll highlight some of the interesting open questions and conjectures that are being worked upon.
Many of these problems relate to very deep problems in group theory, but I'll try to make the group theory as accessible as possible.

Friday 30 
15:00  SEMINAR  Groups and Combinatorics Seminar, The structure of 3separations of matroids

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Abstract:
In this talk, I will give an introduction to decomposition theory of 3connected matroids. In order to make it more accessible I will also introduce some related definitions and examples.


September 2013

Friday 06 
15:00  SEMINAR  Groups and Combinatorics Seminar, Connections between Graph Theory & Combinatorics on Words

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Abstract:
A string or word is usually thought of as a sequence of letters drawn from some alphabet. Applications to bioinformatics and other areas suggest the utility of defining strings on subsets of the alphabet instead  socalled "indeterminate" strings. I describe recent work that connects such strings to ideas from graph theory, and wonder if graph theoretical concepts and knowledge might be still further applied to their analysis and use.

Friday 13 
15:00  SEMINAR  Groups and Combinatorics Seminar, On The Noncommuting Graph

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Abstract:
In this talk, we will consider the noncommuting graph of a nonabelian finite group G; its vertex set is the set of noncentral elements of G, and two distinct vertices x and y are joined by an edge if they do not commute together. Actually, we study some properties of the noncommuting graph such as connectivity, regularity, etc., and we show that, for many groups G, if H is a group which has the same noncommuting graph of G, then they have the same order. We determine the structure of any finite nonabelian group G (up to isomorphism) for which its noncommuting graph is a complete multipartite graph. We also show that a noncommuting graph is a strongly regular graph if and only if it is a complete multipartite graph.

Friday 20 
15:00  SEMINAR  Groups and Combinatorics Seminar, Generalised quadrangles constructed from groups

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Abstract:
This is just a survey talk of various ways to construct all of the known finite generalised quadrangles starting with a group and a configuration of subgroups of that group. In particular, the speaker will give a summary of where one of the "retreat" problems is at.

Wednesday 25 
11:00  SEMINAR  Mathematics Colloquium: The CohenLenstra heuristics: from arithmetic to topology and back again

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Akshay Venkatesh (Stanford) Mahler Lecturer and IAS ProfessoratLarge
will speak on
The CohenLenstra heuristics: from arithmetic to topology and back again.
at 11am in the Science Library Access Grid room.
I will discuss some models of what a "random abelian group" is, and some conjectures (the CohenLenstra heuristics of the title) about how they show up in number theory. I'll then discuss the function field setting and a proof of these heuristics, with Ellenberg and Westerland. The proof is an example of a link between analytic number theory and certain classes of results in algebraic topology ("homological stability").

Friday 27 
15:00  SEMINAR  Groups and Combinatorics Seminar, Straightline programs with memory and applications to computational group theory

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Abstract:
Straightline programs offer a method for encoding group computations in a "black box" sense, namely without using specifics of the group's representation or how the group operations are performed. We advocate that straightline programs designed for group computations should be accompanied by comprehensive complexity analyses that take into account not only the number of group operations needed, but also memory requirements arising during evaluation. We introduce an approach for formalising this idea and discuss a fundamental example for which our methods can drastically improve upon existing implementations. This is joint work (in progress!) with Alice Niemeyer and Cheryl Praeger.


October 2013

Friday 11 
15:00  SEMINAR  Groups and Combinatorics Seminar, Multiply tiling Euclidean space by translating a convex object

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Abstract:
We study the problem of covering Euclidean space R^d by possibly overlapping translates of a convex body P, such that almost every point is covered exactly k times, for a fixed integer k. Such a covering of Euclidean space by translations is called a ktiling. We will first give a historical survey that includes the investigations of classical tilings by translations (which we call 1tilings in this context). They began with the work of the famous crystallographer Fedorov and with the work of Minkowski, who founded the Geometry of Numbers. Some 50 years later Venkov and McMullen gave a complete characterization of all convex objects that 1tile Euclidean space.
Today we know that ktilings can be tackled by methods from Fourier analysis, though some of their aspects can be studied using purely combinatorial means. For many of our results, there is both a combinatorial proof and a Harmonic analysis proof. For k larger than 1, the collection of convex objects that ktile is much wider than the collection of objects that 1tile, and there is currently no complete knowledge of the polytopes that ktile, even in 2 dimensions. We will cover both ``ancient'', as well as very recent, results concerning 1tilings and more generally ktilings. These results are joint work with Nick Gravin, Mihalis Kolountzakis, and Dmitry Shiryaev.

Friday 18 
15:00  SEMINAR  Groups and Combinatorics Seminar, Regular orbits of Sym(n) and Alt(n) on irreducible representations

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Abstract:
Given a finite group G and a faithful irreducible FGmodule V where F is a field of prime order, we can ask whether G has a regular orbit on the vectors of V. This problem is related to determining which primitive permutation groups of affine type have a base of size 2, as well as the famous k(GV)problem and a conjecture of Brauer concerning defect groups of blocks. We will consider the regular orbit problem for the symmetric and alternating groups.

Friday 25 
15:00  SEMINAR  Groups and Combinatorics Seminar, Coprime actions of finite linear groups

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Abstract:
Let H be a finite linear group acting completely reducibly on a finite vector space V. Gabriel Navarro asked: if the Horbits containing vectors a and b have coprime lengths m and n, is there an Horbit of length mn?
We answered, by showing that the Horbit containing a + b has length mn, and by showing, moreover, that in this situation H cannot be irreducible. That is to say, a stabiliser in an affine primitive permutation group does not have a pair of orbits of coprime lengths. I will make some comments, if time permits, about coprime orbit lengths for stabilisers in arbitrary primitive permutation groups. This is joint work with Silvio Dolfi, Bob Guralnick and Pablo Spiga.


November 2013

Friday 01 
15:00  SEMINAR  Groups and Combinatorics Seminar, Algebraic geometry codes

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Abstract:
Codes arising from algebraic geometry, first introduced by Goppa, gained attention when Tsfasman–Vladut–Zink used them to improve the GilbertVarshamow bound. We will give a gentle introduction to some of the beautiful ideas from algebraic geometry used to build these codes. We will then show how to construct them, and then discuss the Tsfasman–Vladut–Zink bound. There will be an emphasis on examples.

Friday 15 
15:00  SEMINAR  Groups and Combinatorics Seminar, A miscellany of topics related to semiregular graph automorphisms

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Abstract :
I will discuss a few things, all related to semiregular graph automorphisms : the polycirculant conjecture, the abelian normal quotient method, an interesting class of graphs...

Monday 18 
In 1950’s Fermi, motivated by fundamental questions of statistical mechanics, started a numerical experiment in collaboration with Pasta and Ulam to test the ergodic properties of nonlinear dynamical systems. The chosen socalled FPU system was a one dimensional chain of N nonlinear coupled oscillators, described by a quadratic potential of nearby particle interactions plus a cubic perturbation. Fermi’s ergodic hypothesis states that a system under an arbitrarily small perturbing force becomes generically ergodic. Starting with the longest wavelength normal mode, the FPU system showed a nonergodic behavior. Many pioneer works followed for the explanation of this paradox. The most prominent of them have been the work of Zabusky and Kruskal (1965), with evidence of connection between the FPU system in the thermodynamic limit and the pde Kortewegde Vries, and the work of Flaschka et al. (1982), where the authors discovered a similar behavior of the FPU model in the Toda chain. Recent developments show a more complete picture of the problem and its explanation.

Friday 22 
Selfavoiding walks (SAWs) are widely studied as a problem in algebraic combinatorics by mathematicians, as a problem in algorithm design by computer scientists, as a model of phase transitions by mathematical physicists and as a model of polymers in dilute solution by chemists.
More recently biologists have used them as models of DNA folding, and to model experiments in which biological molecules are pulled from a surface. I will describe the rather short list of rigorous results, the longer list of what we "know" to be true but can't prove, and describe some numerical results that are of interest in applications. No prior knowledge is assumed.


December 2013

Monday 09 
9:00  CONFERENCE  Australasian Conference on Combinatorial Mathematics and Combinatorial Computing : Held at UWA from the 9th to 13th of December

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This year's Australasian Conference on Combinatorial Mathematics and Combinatorial Computing will be held here at UWA from the 9th to 13th of December. Put the date in your diary now and start looking for cheap flights to Perth.
Visit the conference webpage to find the exciting lineup of invited speakers that we have lined up so far.


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