User Tools

Site Tools


seminars:alge

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

seminars:alge [2019/04/22 14:39]
alex
seminars:alge [2019/09/22 21:30] (current)
tongviet
Line 1: Line 1:
-~~META:​title=Algebra Seminar~~+~~META:​title=Fall 2019~~
  
 <WRAP center box 68%> <WRAP center box 68%>
Line 17: Line 17:
 ---- ----
  
-=====Spring ​2019=====+=====Fall 2019=====
  
 +   * **August 27**\\ Organizational meeting
 +
 +   * **September 3**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Casey Donoven </​span></​html>​(Binghamton University) \\ **//​Automata acting on Fractal Spaces//** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ A self-similar set is a set that is a union of scaled copies of itself. ​ Through iterated labeling of the $n$ copies, $n^2$ subcopies, and so on, we create a correspondence between infinite sequences over an n letter alphabet and points in the self-similar set.  Automata act naturally on infinite sequence, and I will explore groups of homeomorphisms of semi-similar sets induced by automata. ​ I will focus on two examples, the unit interval and Julia set associated to the map $z^2+i$. ​ An important tool in the construction of the automata is the approximation of these self-similar sets as finite graphs. ​
  
-   * **January 22**\\ ​ <​html>​ <span style="​color:​blue;​font-size:​120%">​Organizational Meeting</​span></​html>​ \\      **//Title of Talk//** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ Please come or contact the organizers if you are interested in giving a talk this semester or want to invite someone. 
 </​WRAP>​ </​WRAP>​
  
 +   * **September 10**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Matt Evans </​span></​html>​(Binghamton University) \\ **//​BCK-algebras and generalized spectral spaces
 +//** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ Commutative BCK-algebras are the algebraic semantics of a non-classical logic. Mimicing the
 +construction of the spectrum of a commutative ring (or Boolean algebra or distributive lattice),
 +we can construct the spectrum of a commutative BCK-algebra.
  
 +A topological space is called *spectral* if it is homeomorphic to the spectrum of some commutative
 +ring, and *generalized spectral* if it is homeomorphic to the spectrum of a distributive lattice
 +with 0.
  
-   * **January 29**\\ ​ <​html>​ <span style="​color:​blue;​font-size:​120%">​Ben Brewster (Binghamton University) </​span></​html>​ \\      **//The values ​of the Chermak-Delgado measure//** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ Let $G$ be a finite group. For $H\leq G$$m_G(H) = |H|\ |C_G(H)|$. Let $m^*(G) = max\{m_G(H)\mid H\leq G\}$ and $CD(G) = \{H\leq G\mid m_G(H)=m^*(G)\}$. Then $CD(G)$ is a self-dual modular sublattice of the subgroup lattice of $G$. +In this talk I will briefly discuss Hochster'​s characterization ​of spectral spaces, and then show 
- +that the spectrum ​of a commutative BCK-algebra ​is generalized spectral.
-It is known that if $|G| > 1$, then not every subgroup ​of $G$ is member of $CD(G)$, that is, $|\{m_G(H)\mid H\leq G\}| > 1$. Following some ideas of M. Tarnauceanu,​ we examine possibilities for $|\{m_G(H)\mid H\leq G\}|$, its form and the distribution of subgroups of same measure.+
 </​WRAP>​ </​WRAP>​
  
- +   * **September 17**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Jonathan Doane </​span></​html>​(Binghamton University) ​\\ **// Dualizing Kleene Algebras//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​It is well-known that the class of Boolean algebras is "​generated"​ by 
-   * **February 5**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Alex Feingold (Binghamton University)</​span></​html>​ \\      **//An introduction to Lie algebras//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​A Lie algebra ​is a vector space equipped with a bilinear product, denoted by $[\cdot,\cdot]$, such that $[x,x]=0and $[x,[y,z]] + [y,[z,x]] + [z,[x,y]] = 0$ (Jacobi Identity)will give an introduction ​to the basic ideas and examples.+the two element chain $F<​T$ ​equipped with negation ​$\neg F:= T$$\neg 
 +T:=F$
 +When we include an uncertainty element $F<​U<​T$, along with negation $\neg 
 +U: =U$, we generate the class of Kleene algebras. 
 +Of coursethere is a famous correspondence between Boolean algebras and 
 +Boolean topological spacesnamed Stone duality; 
 +this leads us to wonder if we can somehow represent Kleene algebras by 
 +topological spaces as well. 
 +In factStone duality is but an application of a more general theory of 
 +dual equivalences between categories. 
 +In this talk, we will utilize this theory ​to construct a dual equivalence 
 +between ​the categories of Kleene algebras 
 +and certain topological spaces.
 </​WRAP>​ </​WRAP>​
  
-   * **February 12**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Canceled due to inclement weather ​</​span></​html> ​\\    +   * **September 24**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​David Biddle ​</​span></​html>​(Binghamton University) \\ **//Generating tuples of direct products ​of finite ​simple ​groups//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​ For any group $G$ we can define ​the $n^{th}$ Eulerian function 
- +$\phi_n(G)$, to be the number ​of tuples in $G^n$ that generate $G$ and the rank 
- +of $G$ to be the smallest integer $d=d(G)$ so that $G$ has a generating set of 
-   * **February 19**\\ ​ <​html>​ <span style="​color:​blue;​font-size:​120%">​Daniel Rossi (Binghamton University)</​span></​html> ​\\      **//The structure ​of finite groups ​with exactly three rational-valued +size $d$We will show that if we define ​the reduced Eulerian function to be 
-irreducible characters//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Many results in the character theory of finite groups are motivated from the question: to what extent do the irreducible characters +$r_n(G):​=\phi_n(G)/​|\text{Aut}(G)|$,​ that for $S$ finite simple and $n \geq 2$, 
-of a group $G$ control ​the structure ​of $G$ itself? Recently, it has been observed ​that certain results along these lines can be obtained when one looks not at the set of all irreducible characters ​of $G$, but only the subset ​of those characters taking values in some appropriate fieldIn this talk, I'll characterize ​the structure of finite groups which have exactly three rational-valued irreducible characters ​(for solvable groupsthis characterization is due to J. Tent). I will attempt ​to give some of the flavor of the proof -- which at one point includes a surprise cameo by the complex Lie algebra ​$sl(n)$.+$\text{rank}(S^{r_n(S)})=n$ preciselyThis has been famously used to show for 
 +instance that $\text{rank}((A_5)^{20})=3$ while $\text{rank}((A_5)^{19})=2$.
 </​WRAP>​ </​WRAP>​
  
- +   * **October 1**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​No Classes ​</​span></​html>​(University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
-   * **February 26**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Casey Donoven (Binghamton University)</​span></​html>​ \\      **//Thompson'​s Group $V$ and Finite Permutation Groups//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Thompson'​s group $V$ is group of homeomorphisms of Cantor space. ​ It acts by exchanging finite prefixes in infinite strings over a two-letter alphabet. Generalizations of $V$ called $V_n$ act on n-letter alphabets. I will present more generalizations that add the action of finite permutation groups to the finite prefix exchanges. For a finite permutation group $G$ on $n$ points, the group $V_n(G)$ marries the finite prefix exchanges with iterated permutations from $G$. The primary theorem I will present states that $V_n$ is isomorphic to $V_n(G)$ if and only if $G$ is semiregular (i.e. $G$ acts freely). ​ The proof involves the use of automata and orbit dynamics.+
 </​WRAP>​ </​WRAP>​
  
- +   * **October 8**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Ben Brewster ​</​span></​html>​(Binghamton University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
-   * **March 5**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Matt Evans (Binghamton University)</​span></​html>​ \\      **//Spectra of cBCK-algebras//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​BCK-algebras are algebraic structures that come from a non-classical logic. Mimicking a well-known construction for commutative rings, we can put a topology on the set of prime ideals of a commutative BCK-algebra;​ the resulting space is called the spectrum. I will discuss some results/​properties of the spectrum of such algebras. A particularly interesting spectrum occurs when the underlying algebra is a so-called BCK-union of a specific algebra. In this case, the spectrum is a spectral space, meaning it is homeomorphic to the spectrum of a commutative ring.+
 </​WRAP>​ </​WRAP>​
  
- +   * **October 15**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Fikreab Admasu ​</​span></​html>​(Binghamton University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
-   * **March 12**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Hung Tong-Viet (Binghamton University)</​span></​html>​ \\      **//Real conjugacy class sizes and orders of real elements//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​In this talk, I will present some recent results concerning the structure of finite groups with restriction on the real conjugacy classes or on the orders of real elements.  +
 </​WRAP>​ </​WRAP>​
  
  
-   * **March 19**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Spring Break</​span></​html>​ \\      **//No  Talk//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Text of Abstract+   * **October 22**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Eran Crockett ​</​span></​html>​(Binghamton University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ Abstract
 </​WRAP>​ </​WRAP>​
  
  
-   * **March 26**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​No Talk</​span></​html>​ \\      **//​Title ​of Talk//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Text of Abstract+   * **October 29**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Speaker ​</​span></​html>​(University) ​\\ **//​Title//​** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ Abstract
 </​WRAP>​ </​WRAP>​
  
- +   * **November 5**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Luise Kappe </​span></​html>​(Binghamton University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
-   * **April 2**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​John Brown (Binghamton University)</​span></​html>​ \\      **//A small step toward proving a character theory conjecture//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​In this talk we'll discuss a bit of the work done on a conjecture by Isaacs and others which states that the degree of any primitive character of a finite group G divides the size of some conjugacy class of G. We'll focus on the case that G is symmetric or alternating,​ with a view to showing that the result holds for every irreducible character of either group. If time permits we may discuss ideas for the next steps toward, as well as some of the obstructions to, a general result.+
 </​WRAP>​ </​WRAP>​
  
-   * **April 9**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Jonathan Doane (Binghamton University)</​span></​html>​ \\      **//Restriction of Stone Duality to Generalized Cantor Spaces//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Stone duality is a correspondence between Boolean algebras (BAs) and Boolean/​Stone topological spaces. ​ Dualizing the free BA $\textbf{F}(S)$ on set $S$ yields a product space $2^S$, where $2=\{0,1\}$ is discrete. ​ We call $2^S$ a generalized binary Cantor space (GCS$_2$), and similarly define the spaces GCS$_n$ with $n\ge 2$.  This talk introduces Stone duality and then answers the question ``what is dual to the class of GCS'​s?''​+   * **November 12**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Dikran Karagueuzian ​</​span></​html>​(Binghamton University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
 </​WRAP>​ </​WRAP>​
  
- +   * **November 19**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Zach Costanzo ​</​span></​html>​(Binghamton University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
-   * **April 16**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Casey Donoven (Binghamton University)</​span></​html>​ \\      **//Inverse Semigroups//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​The inverse of an element $a$ of a semigroup $S$ is an element $b$ such that $aba=a$ and $bab=b$. ​ We define an inverse semigroup to be a semigroup where each element has a unique inverse. ​ I will discuss some introductory inverse semigroup theory, such as equivalent definitions,​ showing that the idempotents form a semilattice,​ and the Wagner-Preston Representation Theorem (analogous to Cayley'​s Theorem). Time permitting, I will present a theorem describing the minimum number of proper inverse subsemigroups needed to cover a finite inverse semigroup.+
 </​WRAP>​ </​WRAP>​
  
-   * **April 23**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Joseph Cyr (Binghamton University)</​span></​html>​ \\      **//The Structure of Medial Quandles//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​A medial quandle is a left semigroup in which every polynomial is a multivariable endomorphism. In this talk I will explore a useful structure theorem which shows that any medial quandle can be written as a collection of smaller, easier to understand quandles tied together in what is called an "​affine mesh." This mesh provides a user-friendly way to describe the subdirectly irreducible algebras of the variety.+   * **November 26**\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Speaker ​</​span></​html>​(University) ​\\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
 </​WRAP>​ </​WRAP>​
  
  
-   * **April 30**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Dikran Karagueuzian (Binghamton University)</​span></​html> ​\\      **//Title of Talk//** \\    \\  <WRAP center box 90%> **//​Abstract//​**:​ Text of Abstract +   * **December 3 **\\ <​html>​ <span style="​color:​blue;​font-size:​120%">​Speaker ​</​span></​html>​(University) \\ **//Title//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Abstract
-</​WRAP>​ +
- +
-   * **May 7**\\  <​html>​ <span style="​color:​blue;​font-size:​120%">​Joshua Carey (Binghamton ​University)</​span></​html> ​\\      **//Representation Theory of Affine Kac-Moody Lie Algebras (Candidacy Exam, Part 1)//** \\    \\  <WRAP center box 90%> **//​Abstract//​**: ​Affine Kac-Moody Algebras are infinite dimensional Lie Algebras that have significance in many areas of math as well as theoretical physics. Although they nicely generalize many properties of finite dimensional simple Lie Algebras, it is not so easy to find faithful representations. In this talk I will give some basic definitions and properties of Affine Kac-Moody Algebras and begin to discuss a nice representation using vertex operators. ​+
 </​WRAP>​ </​WRAP>​
  
Line 94: Line 106:
   * [[seminars:​alge:​alge-fall2016]]  ​   * [[seminars:​alge:​alge-fall2016]]  ​
   * [[seminars:​alge:​alge-Spring2017|Spring 2017]]   * [[seminars:​alge:​alge-Spring2017|Spring 2017]]
-  * [[seminars:​alge:​alge-Fall2017|Fall 2017]]+  * [[seminars:​alge:​alge-fall2017]]
   * [[seminars:​alge:​alge-Spring2018|Spring 2018]]   * [[seminars:​alge:​alge-Spring2018|Spring 2018]]
-  * [[seminars:​alge:​alge-Fall2017|Fall 2018]] 
  
 <​html>​ <​html>​
 <iframe src="​https://​calendar.google.com/​calendar/​embed?​src=binghamton.edu_t4i68o16in9e0n2rq4e5lufk90%40group.calendar.google.com&​ctz=America/​New_York"​ style="​border:​ 0" width="​800"​ height="​600"​ frameborder="​0"​ scrolling="​no"></​iframe>​ <iframe src="​https://​calendar.google.com/​calendar/​embed?​src=binghamton.edu_t4i68o16in9e0n2rq4e5lufk90%40group.calendar.google.com&​ctz=America/​New_York"​ style="​border:​ 0" width="​800"​ height="​600"​ frameborder="​0"​ scrolling="​no"></​iframe>​
 </​html>​ </​html>​
seminars/alge.1555958397.txt · Last modified: 2019/04/22 14:39 by alex