Algebra: Difference between revisions

From UW-Math Wiki
Jump to navigation Jump to search
(cleaned up commented previous members, updated postdoc list for 2024)
 
(30 intermediate revisions by 8 users not shown)
Line 1: Line 1:
[[http://www.math.wisc.edu/algrtg/]]http://www.math.wisc.edu/algrtg/ is the RTG homepage.
<!-->[[http://www.math.wisc.edu/algrtg/]]http://www.math.wisc.edu/algrtg/ is the RTG homepage.-->
 
== '''Research at UW-Madison in algebra''' ==
== '''Research at UW-Madison in algebra''' ==


Line 11: Line 10:


[http://pages.cs.wisc.edu/~bach/bach.html Eric Bach:] (Berkeley, 1984) Theoretical computer science, computational number theory, algebraic algorithms, complexity theory, cryptography, six-string automata.  (Joint appointment with CS.)
[http://pages.cs.wisc.edu/~bach/bach.html Eric Bach:] (Berkeley, 1984) Theoretical computer science, computational number theory, algebraic algorithms, complexity theory, cryptography, six-string automata.  (Joint appointment with CS.)
<!--[http://www.math.wisc.edu/~boston/ Nigel Boston:] (Harvard, 1987) Algebraic number theory, group theory, arithmetic geometry, computational algebra, coding theory, cryptography, and other applications of algebra to electrical engineering.  (Joint appointments with ECE and CS.)-->


[http://www.math.wisc.edu/~andreic/ Andrei Caldararu:] (Cornell, 2000) Algebraic geometry, homological algebra, string theory.
[http://www.math.wisc.edu/~andreic/ Andrei Caldararu:] (Cornell, 2000) Algebraic geometry, homological algebra, string theory.
Line 18: Line 16:


[http://www.math.wisc.edu/~ellenber/ Jordan Ellenberg:] (Harvard, 1998) Arithmetic geometry and algebraic number theory, especially rational points on varieties over global fields.
[http://www.math.wisc.edu/~ellenber/ Jordan Ellenberg:] (Harvard, 1998) Arithmetic geometry and algebraic number theory, especially rational points on varieties over global fields.
[http://www.math.wisc.edu/~derman/ Daniel Erman:] (Berkeley, 2010) Algebraic geometry and commutative algebra
[https://people.math.wisc.edu/~vadicgor/ Vadim Gorin:] (Moscow, 2011) Integrable probability, random matrices, asymptotic representation theory (also in the probability group.)


[https://people.math.wisc.edu/~sguo223/ Shaoming Guo:] (Bonn, 2015) Harmonic analysis, analytic number theory, combinatorics, geometric measure theory, partial differential equations (also in the analysis group.)
[https://people.math.wisc.edu/~sguo223/ Shaoming Guo:] (Bonn, 2015) Harmonic analysis, analytic number theory, combinatorics, geometric measure theory, partial differential equations (also in the analysis group.)


[http://www.math.wisc.edu/~shamgar/ Shamgar Gurevich:] (Tel Aviv, 2006) Geometric representation theory, with applications to harmonic analysis, signal processing, mathematical physics, and three-dimensional structuring of molecules.
[http://www.math.wisc.edu/~shamgar/ Shamgar Gurevich:] (Tel Aviv, 2006) Representation theory, with applications to harmonic analysis, signal processing, mathematical physics.


[https://people.math.wisc.edu/~kemeny/homepage.html Michael Kemeny:] (Bonn, 2015) Algebraic geometry and commutative algebra, in particular the study of moduli and syzygies of algebraic varieties.
[https://people.math.wisc.edu/~kemeny/homepage.html Michael Kemeny:] (Bonn, 2015) Algebraic geometry and commutative algebra, in particular the study of moduli and syzygies of algebraic varieties.
[https://people.math.wisc.edu/lawrence/ Brian Lawrence:] (Stanford, 2017) Number theory, arithmetic geometry.


[https://hanbaeklyu.com/ Hanbaek Lyu:] (Ohio State, 2018) Discrete probability, dynamical systems, networks, optimization, machine learning (also in the probability group.)  
[https://hanbaeklyu.com/ Hanbaek Lyu:] (Ohio State, 2018) Discrete probability, dynamical systems, networks, optimization, machine learning (also in the probability group.)  
Line 36: Line 32:


[https://www.math.wisc.edu/~jose/ Jose Israel Rodriguez:] (Berkeley, 2014) Applied algebraic geometry and algebraic methods for statistics.
[https://www.math.wisc.edu/~jose/ Jose Israel Rodriguez:] (Berkeley, 2014) Applied algebraic geometry and algebraic methods for statistics.
<!--[http://www.math.wisc.edu/~svs/ Steven Sam:] (MIT, 2012) Commutative algebra, invariant theory, algebraic combinatorics-->


[https://pages.cs.wisc.edu/~amos/ Amos Ron:] (Tel Aviv, 1987) Approximation theory, wavelets, Gabor systems, splines, polynomial interpolation, data representation, frames, scientific data, applications (joint appointment with CS.)
[https://pages.cs.wisc.edu/~amos/ Amos Ron:] (Tel Aviv, 1987) Approximation theory, wavelets, Gabor systems, splines, polynomial interpolation, data representation, frames, scientific data, applications (joint appointment with CS.)
[https://sites.google.com/view/ashankar/home Ananth Shankar:] (Harvard, 2017) Arithmetic geometry and number theory.


[http://www.math.wisc.edu/~terwilli/ Paul Terwilliger:] (Illinois, 1982) Algebraic combinatorics, representation theory, Lie algebras, quantum groups, special functions.  
[http://www.math.wisc.edu/~terwilli/ Paul Terwilliger:] (Illinois, 1982) Algebraic combinatorics, representation theory, Lie algebras, quantum groups, special functions.  
<!--[http://www.math.wisc.edu/~mmwood/ Melanie Matchett Wood:] (Princeton, 2009) Number theory and arithmetic geometry.-->


[http://www.math.wisc.edu/~wang/ Botong Wang:] (Purdue, 2012) Complex algebraic geometry, algebraic statistics and combinatorics. (Also in the geometry/topology group)
[http://www.math.wisc.edu/~wang/ Botong Wang:] (Purdue, 2012) Complex algebraic geometry, algebraic statistics and combinatorics. (Also in the geometry/topology group)
Line 49: Line 41:
[http://www.math.wisc.edu/~thyang/ Tonghai Yang:] (Maryland, 1995) number theory, representation theory, and arithmetic geometry:  especially L-functions, Eisenstein series, theta series, Shimura varieties, intersection theory, and elliptic curves.
[http://www.math.wisc.edu/~thyang/ Tonghai Yang:] (Maryland, 1995) number theory, representation theory, and arithmetic geometry:  especially L-functions, Eisenstein series, theta series, Shimura varieties, intersection theory, and elliptic curves.


<!--[http://www.math.wisc.edu/~boston/ Nigel Boston:] (Harvard, 1987) Algebraic number theory, group theory, arithmetic geometry, computational algebra, coding theory, cryptography, and other applications of algebra to electrical engineering.  (Joint appointments with ECE and CS.)
[http://www.math.wisc.edu/~derman/ Daniel Erman:] (Berkeley, 2010) Algebraic geometry and commutative algebra
[http://www.math.wisc.edu/~svs/ Steven Sam:] (MIT, 2012) Commutative algebra, invariant theory, algebraic combinatorics
[http://www.math.wisc.edu/~mmwood/ Melanie Matchett Wood:] (Princeton, 2009) Number theory and arithmetic geometry.-->


'''Postdoctoral fellows in algebra'''
'''Postdoctoral fellows in algebra'''
<!--[http://www.math.wisc.edu/~brownda/ David Brown:] (Berkeley, 2010) Number theory and arithmetic geometry, especially: p-adic cohomology, arithmetic of varieties, stacks, moduli, Galois representations, non-abelian techniques.
<!--[http://www.math.wisc.edu/~brownda/ David Brown:] (Berkeley, 2010) Number theory and arithmetic geometry, especially: p-adic cohomology, arithmetic of varieties, stacks, moduli, Galois representations, non-abelian techniques.
[http://www.math.wisc.edu/~cais/ Bryden Cais:] (Michigan, 2007) Algebraic and arithmetic geometry, with a strong number theory bias.
[http://www.math.wisc.edu/~cais/ Bryden Cais:] (Michigan, 2007) Algebraic and arithmetic geometry, with a strong number theory bias.
[http://www.math.wisc.edu/~ballard/ Matthew Ballard:] (U Washington, 2008) Homological mirror symmetry.
[http://www.math.wisc.edu/~ballard/ Matthew Ballard:] (U Washington, 2008) Homological mirror symmetry.
[http://www.math.wisc.edu/~rharron/ Robert Harron:] (Princeton, 2009):  Algebraic number theory, Iwasawa theory, p-adic Galois representations and automorphic forms.
[http://www.math.wisc.edu/~rharron/ Robert Harron:] (Princeton, 2009):  Algebraic number theory, Iwasawa theory, p-adic Galois representations and automorphic forms.
[http://www.math.wisc.edu/~klagsbru/ Zev Klagsbrun:] (UC-Irvine, 2011): Algebraic number theory and arithmetic geometry.
[http://www.math.wisc.edu/~klagsbru/ Zev Klagsbrun:] (UC-Irvine, 2011): Algebraic number theory and arithmetic geometry.
Parker Lowrey: (University of Texas-Austin, 2010) Algebraic geometry and algebraic topology
Parker Lowrey: (University of Texas-Austin, 2010) Algebraic geometry and algebraic topology
[http://www.math.wisc.edu/~srostami/ Sean Rostami:] (University of Maryland, 2012): representation theory of algebraic groups, local models of Shimura varieties
[http://www.math.wisc.edu/~srostami/ Sean Rostami:] (University of Maryland, 2012): representation theory of algebraic groups, local models of Shimura varieties
[http://www.math.wisc.edu/~josizemore/ Owen Sizemore:] (UCLA, 2012) Operator Algebras, Orbit Equivalence Ergodic Theory, Measure Equivalence Rigidity of Groups  
[http://www.math.wisc.edu/~josizemore/ Owen Sizemore:] (UCLA, 2012) Operator Algebras, Orbit Equivalence Ergodic Theory, Measure Equivalence Rigidity of Groups  
[http://www.math.wisc.edu/~grizzard/ Robert Grizzard:] (U Texas, 2014) Algebraic number theory, diophantine geometry, heights
[http://www.math.wisc.edu/~grizzard/ Robert Grizzard:] (U Texas, 2014) Algebraic number theory, diophantine geometry, heights
[http://www.math.wisc.edu/~mkbrown5/ Michael Brown:] (Nebraska, 2015) K-theory, commutative algebra, (noncommutative) algebraic geometry.
[https://sites.google.com/a/wisc.edu/alexandra-a-kjuchukova/home Alexandra Kjuchukova:] (Penn, 2015) Topology of algebraic varieties, branched covers
[https://sites.google.com/site/dcorey2814/ Daniel Corey:] (Yale, 2018) Tropical geometry
[http://www.math.wisc.edu/~pavlov/ Alexander Pavlov:] (U Toronto, 2015) Commutative algebra, algebraic geometry
[https://markshus.wixsite.com/math Mark Shusterman:] (Tel Aviv, 2019) Number theory and group theory
[http://www.math.wisc.edu/~wang/ Botong Wang:] (Purdue, 2012) Topology of algebraic varieties, topological methods in statistics
[https://sites.google.com/wisc.edu/jwg/home John Wiltshire-Gordon:] (Michigan, 2016) Algebra, topology and combinatorics, especially: representation theory of categories
[https://math.wisc.edu/staff/wen-boya/ Boya Wen:] (Princeton, 2021) Number theory and arithmetic geometry.
[https://sites.google.com/view/zqyang/ Ziquan Yang] (Harvard, 2021) Number theory and arithmetic geometry.
[http://www.math.wisc.edu/~ntalebiz Naser T. Sardari:] (Princeton, 2016) Number theory, especially: quadratic forms, automorphic forms, locally symmetric spaces
[https://people.math.wisc.edu/~asobieska/ Aleksandra (Ola) Sobieska:] (Texas A&M University, 2020) Commutative algebra, combinatorics
-->
-->
<!--[http://www.math.wisc.edu/~mkbrown5/ Michael Brown:] (Nebraska, 2015) K-theory, commutative algebra, (noncommutative) algebraic geometry.-->
<!--[https://sites.google.com/a/wisc.edu/alexandra-a-kjuchukova/home Alexandra Kjuchukova:] (Penn, 2015) Topology of algebraic varieties, branched covers-->
<!--[https://sites.google.com/site/dcorey2814/ Daniel Corey:] (Yale, 2018) Tropical geometry-->
<!--[http://www.math.wisc.edu/~pavlov/ Alexander Pavlov:] (U Toronto, 2015) Commutative algebra, algebraic geometry-->


[https://people.math.wisc.edu/~shi/ Yousheng Shi:] (Maryland, 2019) Number theory and arithmetic algebraic geometry.
[https://joshuamundinger.github.io/ Joshua Mundinger:] (Chicago, 2023) Representation theory, algebraic geometry, arithmetic geometry.
 
<!--[http://www.math.wisc.edu/~ntalebiz Naser T. Sardari:] (Princeton, 2016) Number theory, especially: quadratic forms, automorphic forms, locally symmetric spaces-->
<!--[https://markshus.wixsite.com/math Mark Shusterman:] (Tel Aviv, 2019) Number theory and group theory-->
[https://people.math.wisc.edu/~asobieska/ Aleksandra (Ola) Sobieska:] (Texas A&M University, 2020) Commutative algebra, combinatorics


<!--[http://www.math.wisc.edu/~wang/ Botong Wang:] (Purdue, 2012) Topology of algebraic varieties, topological methods in statistics-->
[https://tjyahl.github.io/ Thomas Yahl] (Texas A&M, 2023) Algebraic geometry, applied algebra.
<!--[https://sites.google.com/wisc.edu/jwg/home John Wiltshire-Gordon:] (Michigan, 2016) Algebra, topology and combinatorics, especially: representation theory of categories-->


'''Seminars in algebra'''
'''Seminars in algebra'''
Line 87: Line 77:
The weekly schedule at UW features many seminars in the algebraic research areas of the faculty.
The weekly schedule at UW features many seminars in the algebraic research areas of the faculty.


[https://hilbert.math.wisc.edu/wiki/index.php/Algebra_and_Algebraic_Geometry_Seminar_Spring_2022#Spring_2022_Schedule ] (Fridays at 2:30)
[http://hilbert.math.wisc.edu/wiki/index.php/Algebra_and_Algebraic_Geometry_Seminar Algebra and Algebraic Geometry Seminar] (Fridays at 2:30)
<!--[https://www.math.wisc.edu/wiki/index.php/Algebraic_Geometry_Seminar Algebraic Geometry Seminar] (Fridays at 2:30)-->
<!--[https://www.math.wisc.edu/wiki/index.php/Algebraic_Geometry_Seminar Algebraic Geometry Seminar] (Fridays at 2:30)-->
[https://hilbert.math.wisc.edu/wiki/index.php?title=Graduate_Algebraic_Geometry_Seminar Graduate Algebraic Geometry Seminar] (Wednesdays at 4:00)


[https://www.math.wisc.edu/wiki/index.php/Applied_Algebra_Seminar Applied Algebra Seminar]  (Thursdays)
[https://www.math.wisc.edu/wiki/index.php/Applied_Algebra_Seminar Applied Algebra Seminar]  (Thursdays)
Line 98: Line 90:
[http://www.math.wisc.edu/wiki/index.php/NTS Number Theory Seminar (outside speakers)](Thursdays at 2:30)
[http://www.math.wisc.edu/wiki/index.php/NTS Number Theory Seminar (outside speakers)](Thursdays at 2:30)


[http://www.math.wisc.edu/wiki/index.php/NTSGrad_Fall_2018 Number Theory Seminar (grad student speakers)] (Tuesdays at 2:30)
[http://www.math.wisc.edu/wiki/index.php/NTSGrad Number Theory Seminar (grad student speakers)] (Tuesdays at 2:30)


[http://silo.ece.wisc.edu/web/content/seminars SILO (Systems, Information, Learning and Optimization)] (Wednesdays at 12:30)
[http://silo.ece.wisc.edu/web/content/seminars SILO (Systems, Information, Learning and Optimization)] (Wednesdays at 12:30)
Line 109: Line 101:


'''Previous conferences in algebra held at UW'''
'''Previous conferences in algebra held at UW'''
[https://sites.google.com/view/october-workshop/home Algebra and Topology over Global Fields], October 2022.
[https://sites.google.com/wisc.edu/madisonmoduliweekend/home Madison Moduli Weekend], September 2020.


[http://www.math.grinnell.edu/~paulhusj/ants2018/ ANTS XIII] (Algorithmic Number Theory Symposium), July 2018
[http://www.math.grinnell.edu/~paulhusj/ants2018/ ANTS XIII] (Algorithmic Number Theory Symposium), July 2018
Line 126: Line 122:
[http://www.math.wisc.edu/~boston/applalg2.html Applied Algebra Days 2], May 2014
[http://www.math.wisc.edu/~boston/applalg2.html Applied Algebra Days 2], May 2014


[https://sites.google.com/site/gtntd2013/ Group Theory, Number Theory, and Topology Day], January 2013
[https://sites.google.com/site/gtntd2013/ Group Theory, Number Theory, and Topology Day], January 2013


[https://sites.google.com/site/mirrorsymmetryinthemidwest/ Mirror Symmetry in the Midwest], November 2012
[https://sites.google.com/site/mirrorsymmetryinthemidwest/ Mirror Symmetry in the Midwest], November 2012
Line 157: Line 153:
<!--The department holds an [http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=0838210&version=noscript NSF-RTG grant in number theory and algebraic geometry], which funds several research assistantships for graduate students (U.S. citizens and permanent residents) working in those areas.-->  
<!--The department holds an [http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=0838210&version=noscript NSF-RTG grant in number theory and algebraic geometry], which funds several research assistantships for graduate students (U.S. citizens and permanent residents) working in those areas.-->  


Recent Ph.D. graduates from the group have been very successful on the job market; in the last few years, we have sent alumni to postdoctoral fellowships at Berkeley, Harvard, Chicago, Michigan, Penn, Imperial (UK), MIT, Princeton, Stanford, University of Cologne(Germany), Max Planck Institut, and UT-Austin, to tenure-track jobs at Oregon, Wake Forest, SUNY-Geneseo, Bogacizi (Turkey), Chennai Mathematical Institute (India), CUNY, the University of Sheffield (UK), the University of Missouri, and the University of South Carolina, and to non-academic positions at places such as Google, Robart GMBH, Microsoft, Credit Suisse and the Center for Communications Research, La Jolla.
Recent Ph.D. graduates from the group have been very successful on the job market; in the last few years, we have sent alumni to postdoctoral fellowships at Berkeley, Harvard, Chicago, Michigan, Penn, Imperial (UK), MIT, Princeton, Stanford, University of Cologne(Germany), Max Planck Institut, and UT-Austin, to tenure-track jobs at Georgia, Washington U., UIUC, Dartmouth, Bowdoin, Leiden, Oregon, Wake Forest, Bogacizi (Turkey), Chennai Mathematical Institute (India), Reed College, Portland State U., the University of Sheffield (UK), the University of Missouri, and the University of South Carolina, and to non-academic positions at places such as Google, Two Sigma, Robart GMBH, Microsoft, Credit Suisse and the Center for Communications Research, La Jolla.




Line 165: Line 161:
Professor, University of Illinois at Urbana-Champaign (1962)  
Professor, University of Illinois at Urbana-Champaign (1962)  
Research: Finite group theory
Research: Finite group theory
Georgia Benkart
E. B. Van Vleck Professor of Mathematics, Ph.D. Yale University (1974)
Research: Lie Theory, Quantum Groups and Representation Theory.


Michael Bleicher  
Michael Bleicher  
Professor, Ph.D. Tulane University and University of Warsaw (1961)  
Professor, Ph.D. Tulane University and University of Warsaw (1961)  
Research: Number theory and convex geometry
Research: Number theory and convex geometry
Nigel Boston
Professor, Ph.D. Harvard (1987)
Research: Algebraic number theory, group theory, arithmetic geometry, computational algebra, coding theory, cryptography, and other applications of algebra to electrical engineering


Richard A. Brualdi  
Richard A. Brualdi  
Beckwith Bascom Professor of Mathematics, Ph.D. Syracuse University (1964)  
Beckwith Bascom Professor of Mathematics, Ph.D. Syracuse University (1964)  
Research: Combinatorics, Graph Theory, Matrix Theory, Coding Theory
Research: Combinatorics, Graph Theory, Matrix Theory, Coding Theory
Donald Crowe
Professor, Ph.D. University of Michigan (1959)
Research: Classical geometry and African patterns


I. Martin Isaacs  
I. Martin Isaacs  
Line 198: Line 182:
Research: Associative Rings and Algebras, Group Theory
Research: Associative Rings and Algebras, Group Theory


Louis Solomon  
[https://math.wisc.edu/2020/11/20/in-memoriam-louis-solomon/ Louis Solomon]
Professor, Ph.D. Harvard University (1958)  
Professor, Ph.D. Harvard University (1958)  
Research: Finite group theory and hyperplane arrangements  
Research: Finite group theory and hyperplane arrangements  

Latest revision as of 19:00, 16 September 2024

Research at UW-Madison in algebra

UW-Madison offers a large, active, and varied research group in algebra, including researchers in number theory, combinatorics, group theory, algebraic geometry, representation theory, and algebra with applications to science and engineering.

Tenured and tenure-track faculty in algebra

Dima Arinkin: (Harvard, 2002) Algebraic geometry, geometric representation theory, especially geometric Langlands conjecture.

Eric Bach: (Berkeley, 1984) Theoretical computer science, computational number theory, algebraic algorithms, complexity theory, cryptography, six-string automata. (Joint appointment with CS.)

Andrei Caldararu: (Cornell, 2000) Algebraic geometry, homological algebra, string theory.

Tullia Dymarz: (Chicago, 2007) Geometric group theory, quasi-isometric rigidity, large scale geometry of finitely generated groups, solvable groups and quasiconformal analysis. (Also in the geometry/topology group)

Jordan Ellenberg: (Harvard, 1998) Arithmetic geometry and algebraic number theory, especially rational points on varieties over global fields.

Shaoming Guo: (Bonn, 2015) Harmonic analysis, analytic number theory, combinatorics, geometric measure theory, partial differential equations (also in the analysis group.)

Shamgar Gurevich: (Tel Aviv, 2006) Representation theory, with applications to harmonic analysis, signal processing, mathematical physics.

Michael Kemeny: (Bonn, 2015) Algebraic geometry and commutative algebra, in particular the study of moduli and syzygies of algebraic varieties.

Brian Lawrence: (Stanford, 2017) Number theory, arithmetic geometry.

Hanbaek Lyu: (Ohio State, 2018) Discrete probability, dynamical systems, networks, optimization, machine learning (also in the probability group.)

Simon Marshall: (Princeton, 2010) Analytic number theory (also in the analysis group.)

Laurentiu Maxim: (Penn, 2005) Topology of algebraic varieties, singularities (also in the geometry/topology group.)

Jose Israel Rodriguez: (Berkeley, 2014) Applied algebraic geometry and algebraic methods for statistics.

Amos Ron: (Tel Aviv, 1987) Approximation theory, wavelets, Gabor systems, splines, polynomial interpolation, data representation, frames, scientific data, applications (joint appointment with CS.)

Paul Terwilliger: (Illinois, 1982) Algebraic combinatorics, representation theory, Lie algebras, quantum groups, special functions.

Botong Wang: (Purdue, 2012) Complex algebraic geometry, algebraic statistics and combinatorics. (Also in the geometry/topology group)

Tonghai Yang: (Maryland, 1995) number theory, representation theory, and arithmetic geometry: especially L-functions, Eisenstein series, theta series, Shimura varieties, intersection theory, and elliptic curves.


Postdoctoral fellows in algebra

Joshua Mundinger: (Chicago, 2023) Representation theory, algebraic geometry, arithmetic geometry.

Thomas Yahl (Texas A&M, 2023) Algebraic geometry, applied algebra.

Seminars in algebra

The weekly schedule at UW features many seminars in the algebraic research areas of the faculty.

Algebra and Algebraic Geometry Seminar (Fridays at 2:30)

Graduate Algebraic Geometry Seminar (Wednesdays at 4:00)

Applied Algebra Seminar (Thursdays)

Combinatorics Seminar (Mondays at 2:25)

Number Theory Seminar (outside speakers)(Thursdays at 2:30)

Number Theory Seminar (grad student speakers) (Tuesdays at 2:30)

SILO (Systems, Information, Learning and Optimization) (Wednesdays at 12:30)

Online Social Chit-Chats (various times)


Upcoming conferences in algebra held at UW


Previous conferences in algebra held at UW

Algebra and Topology over Global Fields, October 2022.

Madison Moduli Weekend, September 2020.

ANTS XIII (Algorithmic Number Theory Symposium), July 2018

Arithmetic of Algebraic Curves, April 2018

Singularities in the Midwest V, March 2018

Singularities in the Midwest IV, March 2017

Applied Algebra Days 3, May 2016

Upper midwest commutative algebra colloquium, November 2015

Stratified spaces in geometric and computational topology and physics (Shaneson 70), March 2015

Applied Algebra Days 2, May 2014

Group Theory, Number Theory, and Topology Day, January 2013

Mirror Symmetry in the Midwest, November 2012

Midwest Algebraic Geometry Graduate Conference, November 2012

Applied Algebra Days, October 2011

Midwest Number Theory Conference for Graduate Students, November 2011

RTG Graduate Student Workshop in Algebraic Geometry, October 2010

Workshop on Pseudo-Anosovs with Small Dilatation, April 2010

Singularities in the Midwest, March 2010

RTG Midwest Graduate Student Conference in Number Theory, November 2009

Midwest Number Theory Day, November 2009

Miniconference on pro-p groups in number theory, April 2008

Pro-p groups and pro-p algebras in number theory, April 2007


Graduate study at UW-Madison in algebra

Algebra is among the most popular specializations for UW Ph.D. students. Regularly offered courses include a four-semester sequence in number theory; a two-semester sequence in algebraic geometry; homological algebra; representation theory; advanced topics in group theory. We also regularly offer more advanced topics courses, which in recent years have included the Gross-Zagier formula, classification of algebraic surfaces, and p-adic Hodge theory.

Recent Ph.D. graduates from the group have been very successful on the job market; in the last few years, we have sent alumni to postdoctoral fellowships at Berkeley, Harvard, Chicago, Michigan, Penn, Imperial (UK), MIT, Princeton, Stanford, University of Cologne(Germany), Max Planck Institut, and UT-Austin, to tenure-track jobs at Georgia, Washington U., UIUC, Dartmouth, Bowdoin, Leiden, Oregon, Wake Forest, Bogacizi (Turkey), Chennai Mathematical Institute (India), Reed College, Portland State U., the University of Sheffield (UK), the University of Missouri, and the University of South Carolina, and to non-academic positions at places such as Google, Two Sigma, Robart GMBH, Microsoft, Credit Suisse and the Center for Communications Research, La Jolla.


Emeritus faculty in algebra

Steven Bauman Professor, University of Illinois at Urbana-Champaign (1962) Research: Finite group theory

Michael Bleicher Professor, Ph.D. Tulane University and University of Warsaw (1961) Research: Number theory and convex geometry

Richard A. Brualdi Beckwith Bascom Professor of Mathematics, Ph.D. Syracuse University (1964) Research: Combinatorics, Graph Theory, Matrix Theory, Coding Theory

I. Martin Isaacs Professor, Ph.D. Harvard University (1964) Research: Group Theory, Algebra

J. Marshall Osborn Professor, Ph.D. University of Chicago (1957) Research: Non-associative rings and Lie algebras

Donald Passman Richard Brauer Professor of Mathematics, Ph.D. Harvard University (1964) Research: Associative Rings and Algebras, Group Theory

Louis Solomon Professor, Ph.D. Harvard University (1958) Research: Finite group theory and hyperplane arrangements

Robert Wilson Professor, Ph.D. University of Wisconsin-Madison (1969) Research: Algebra, Math. Education.