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<b>UW Madison mathematics Colloquium is on Fridays at 4:00 pm. </b>
<b>UW-Madison Mathematics Colloquium is on Fridays at 4:00 pm in Van Vleck B239 unless otherwise noted.</b>


<!--- in Van Vleck B239, '''unless otherwise indicated'''. --->
Contacts for the colloquium are Dallas Albritton and Michael Kemeny.


Everyone in the math department is subscribed to the mathcolloquium@g-groups.wisc.edu mailing list.


== January 10, 2022, Monday at 4pm in B239 + [http://go.wisc.edu/wuas48 Live stream] + [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Chat over Zoom], [https://www.stat.berkeley.edu/~gheissari/ Reza Gheissari] (UC Berkeley) ==


(reserved by the hiring committee)
This semester's colloquia:  [[Colloquia/Fall 2024|Fall 2024]]
==Future Colloquia==
[[Colloquia/Spring 2025|Spring 2025]]


'''Surface phenomena in the 2D and 3D Ising model'''
==Past Colloquia ==


Since its introduction in 1920, the Ising model has been one of the most studied models of phase transitions in statistical physics. In its low-temperature regime, the model has two thermodynamically stable phases, which, when in contact with each other, form an interface: a random curve in 2D and a random surface in 3D. In this talk, I will survey the rich phenomenology of this interface in 2D and 3D, and describe recent progress in understanding its geometry in various parameter regimes where different surface phenomena and universality classes emerge.
[[Colloquia/Spring2024|Spring 2024]]


== January 17, 2022, Monday at 4pm in B239 + [http://go.wisc.edu/wuas48 Live stream] + [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Chat over Zoom], [https://sites.google.com/view/lovingmath/home Marissa Loving] (Georgia Tech) ==
[[Colloquia/Fall 2023|Fall 2023]]


(reserved by the hiring committee)
[[Colloquia/Spring2023|Spring 2023]]
 
'''Symmetries of surfaces: big and small'''
 
We will introduce both finite and infinite-type surfaces and study their collections of symmetries, known as mapping class groups. The study of the mapping class group of finite-type surfaces has played a central role in low-dimensional topology stretching back a hundred years to work of Max Dehn and Jakob Nielsen, and gaining momentum and significance through the celebrated work of Bill Thurston on the geometry of 3-manifolds. In comparison, the study of the mapping class group of infinite-type surfaces has exploded only within the past few years. Nevertheless, infinite-type surfaces appear quite regularly in the wilds of mathematics with connections to dynamics, the topology of 3-manifolds, and even descriptive set theory -- there is a great deal of rich mathematics to be gained in their study! In this talk, we will discuss the way that the study of surfaces intersects and interacts with geometry, algebra, and number theory, as well as some of my own contributions to this vibrant area of study.
 
== January 21, 2022, Friday at 4pm in B239 + [http://go.wisc.edu/wuas48 Live stream] + [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Chat over Zoom], [https://web.math.princeton.edu/~nfm2/ Nicholas Marshall]  (Princeton) ==
 
(reserved by the hiring committee)
 
'''Laplacian quadratic forms, function regularity, graphs, and optimal transport'''
 
In this talk, I will discuss two different applications of harmonic analysis to
problems motivated by data science. Both problems involve using Laplacian
quadratic forms to measure the regularity of functions. In both cases the key
idea is to understand how to modify these quadratic forms to achieve a specific
goal. First, in the graph setting, we suppose that a collection of m graphs
G_1 = (V,E_1),...,G_m=(V,E_m) on a common set of vertices V is given,
and consider the problem of finding the 'smoothest' function f : V -> R with
respect to all graphs simultaneously, where the notion of smoothness is defined
using graph Laplacian quadratic forms. Second, on the unit square [0,1]^2, we
consider the problem of efficiently computing linearizations of 2-Wasserstein
distance; here, the solution involves quadratic forms of a Witten Laplacian.
 
== January 24, 2022, Monday at 4pm in B239 + [http://go.wisc.edu/wuas48 Live stream] + [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Chat over Zoom], [https://sites.google.com/view/skippermath Rachel Skipper] (Ohio State) ==
 
(reserved by the hiring committee)
 
'''From simple groups to symmetries of surfaces'''
 
We will take a tour through some families of groups of historic importance in geometric group theory, including self-similar groups and Thompson’s groups. We will discuss the rich, continually developing theory of these groups which act as symmetries of the Cantor space, and how they can be used to understand the variety of infinite simple groups. Finally, we will discuss how these groups are serving an important role in the newly developing field of big mapping class groups which are used to describe symmetries of surfaces.
 
== February 11, 2022, at 4pm in B239 + [http://go.wisc.edu/wuas48 Live stream] + [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Chat over Zoom], [https://people.math.wisc.edu/~msoskova/ Mariya Soskova] (UW-Madison) ==
 
'''The e-verse'''
 
Computability theory studies the relative algorithmic complexity of sets of natural numbers and other mathematical objects. Turing reducibility and the induced partial order of the Turing degrees serve as the well-established model of relative computability. Enumeration reducibility captures another natural relationship between sets of natural numbers in which positive information about the first set is used to produce positive information about the second set. The induced structure of the enumeration degrees can be viewed as an extension of the Turing degrees, as there is a natural way to embed the second partial order in the first. In certain cases, the enumeration degrees can be used to capture the algorithmic content of mathematical objects, while the Turing degrees fail. Certain open problems in degree theory present as more approachable in the extended context of the enumeration degrees, e.g. first order definability. We have been working to develop a richer “e-verse”: a system of classes of enumeration degrees with interesting properties and relationships, in order to better understand the enumeration degrees. I will outline several research directions in this context.
 
== February 18, 2022, at 4pm in B239 + [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Video over Zoom], [https://people.math.wisc.edu/~seeger/ Andreas Seeger] (UW-Madison) ==
 
'''Spherical maximal functions and fractal dimensions of dilation sets'''
 
We survey old and new problems and results on spherical means, regarding pointwise convergence, $L^p$ improving and consequences for sparse domination.
 
== February 25, 2022, at 4pm in B239 + [http://go.wisc.edu/wuas48 Live Stream], [https://sites.google.com/view/rohini-ramadas/home Rohini Ramadas] (Warwick) ==
 
(hosted by WIMAW)
 
'''Dynamics on the moduli space of point-configurations on the Riemann sphere'''
 
A degree-$d$ rational function $f(z)$ in one variable with complex coefficients defines a holomorphic self-map of the Riemann sphere. A rational function is called post-critically finite (PCF) if every critical point is (pre)-periodic. PCF rational functions have been central in complex dynamics, due to their special dynamical behavior, and their special distribution within the parameter space of all rational maps.
 
By work of Koch building on a result of Thurston, every PCF map arises as an isolated fixed point of an algebraic dynamical system on the moduli space $M_{0,n}$ of point-configurations on the Riemann sphere. I will introduce PCF maps and $M_{0,n}$. I will then present results characterizing the ensuing dynamics on $M_{0,n}$.
 
This talk includes joint work with Nguyen-Bac Dang, Sarah Koch, David Speyer, and Rob Silversmith.
 
== March 1, 2 and 4, 2022 (Tuesday, Wednesday and Friday),  [http://www.math.stonybrook.edu/~roblaz/ Robert Lazarsfeld] (Stony Brook) ==
(''Departmental Distinguished Lecture series'')
 
'''Public Lecture: Pythagorean triples and parametrized curves'''
 
''Tuesday, March 1, 4:00pm (Humanities 3650 + [http://go.wisc.edu/n6986j Live Stream]). Note unusual time and location!''
 
In this lecture, aimed at advanced undergraduate and beginning graduate students, I will discuss the question of when a curve in the plane admits a parameterization by polynomials or rational functions.
 
 
'''Colloquium: How irrational is an irrational variety?'''
 
''Wednesday, March 2, 4:00pm (VV B239 + [http://go.wisc.edu/wuas48 Live Stream]).''
 
Recall that an algebraic variety is said to be rational if it has a Zariski open subset that is isomorphic to an open subset of projective space. There has been a great deal of recent activity and progress on questions of rationality, but most varieties aren't rational. I will survey a body of work concerned with measuring and controlling “how irrational” a given variety might be.
 
 
'''Seminar: Measures of association for algebraic varieties'''
 
''Friday, March 4, 4:00pm (VV B239 )''
 
I will discuss some recent work with Olivier Martin that attempts to quantify how far two varieties are from being birationally isomorphic. Besides presenting a few results, I will discuss many open problems and avenues for further investigation.
 
== March 11, 2022, [https://people.math.wisc.edu/~anderson/ David Anderson] (UW-Madison) ==
 
(local)
 
'''Stochastic models of reaction networks and the Chemical Recurrence Conjecture'''
 
Cellular, chemical, and population processes are all often represented via networks that describe the interactions between the different population types (typically called the ''species'').   
 
If the counts of the species are low, then these systems are most often modeled as continuous-time Markov chains on $Z^d$ (with d being the number of species), with rates determined by stochastic mass-action kinetics.  A natural (broad) question is:  how do the qualitative properties of the dynamical system relate to the properties of the network?  One specific conjecture, called the Chemical Recurrence Conjecture, and that has been open for decades, is the following: if each connected component of the network is strongly connected, then the associated stochastic model is positive recurrent (meaning the model is quite stable). 
 
I will give a general introduction to this class of models and will present the latest work towards a proof of the Chemical Recurrence Conjecture.  I will make this talk accessible to graduate students, regardless of their field of study.  Some of the new results presented are joint with Daniele Cappelletti, Andrea Agazzi, and Jonathan Mattingly.
 
== March 25, 2022, Friday at 4pm on [https://uwmadison.zoom.us/j/93283927523?pwd=S3V6Nlh4bUhYc0F5QzNabi9RMSthUT09 Zoom]. [http://www.math.lsa.umich.edu/~canary/ Richard Canary] (Michigan) ==
 
(hosted by Zimmer)
 
== April 1, 2022, [https://www.patelp.com/ Priyam Patel] (Utah) ==
 
(hosted by WIMAW)
 
== April 8, 2022, [https://math.temple.edu/~tuf27009/index.html Matthew Stover] (Temple University) ==
 
(hosted by Zimmer)
 
== April 15, 2022, [https://www.qatar.tamu.edu/programs/science/faculty-and-staff/berhand-lamel Bernhard Lamel], (Texas A&M University at Qatar) ==
 
(hosted by Gong)
 
== April 25-26-27 (Monday [VV B239], Tuesday [Chamberlin 2241], Wednesday [VV B239]) 4 pm  [https://math.mit.edu/directory/profile.php?pid=1461 Larry Guth] (MIT) ==
 
(''Departmental Distinguished Lecture series'')
 
== May 10+12, 2022, Tuesday+Thursday, 12pm on Zoom. [http://www.ma.huji.ac.il/~kalai/ Gil Kalai] (Hebrew University) ==
 
(''Hilldale Lectures / Special colloquium'')
 
'''The argument against quantum computers'''
 
== Future Colloquia ==


[[Colloquia/Fall2022|Fall 2022]]
[[Colloquia/Fall2022|Fall 2022]]


[[Colloquia/Spring2023|Spring 2023]]
[[Spring 2022 Colloquiums|Spring 2022]]


== Past Colloquia ==
[[Colloquia/Fall2021|Fall 2021]]
[[Colloquia/Fall2021|Fall 2021]]



Latest revision as of 02:33, 12 August 2024


UW-Madison Mathematics Colloquium is on Fridays at 4:00 pm in Van Vleck B239 unless otherwise noted.

Contacts for the colloquium are Dallas Albritton and Michael Kemeny.

Everyone in the math department is subscribed to the mathcolloquium@g-groups.wisc.edu mailing list.


This semester's colloquia: Fall 2024

Future Colloquia

Spring 2025

Past Colloquia

Spring 2024

Fall 2023

Spring 2023

Fall 2022

Spring 2022

Fall 2021

Spring 2021

Fall 2020

Spring 2020

Fall 2019

Spring 2019

Fall 2018

Spring 2018

Fall 2017

Spring 2017

Fall 2016

Spring 2016

Fall 2015

Spring 2015

Fall 2014

Spring 2014

Fall 2013

Spring 2013

Fall 2012

WIMAW