Research at UW-Madison in Algebra: Difference between revisions

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== '''Research at UW-Madison in algebra''' ==
== '''Research at UW-Madison in algebra''' ==


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'''Faculty in algebra'''
'''Faculty in algebra'''
[http://www.math.wisc.edu/~boston/ Nigel Boston:]  Algebraic number theory, group theory, arithmetic geometry, computational algebra, coding theory, cryptography, and other applications of algebra to electrical engineering.
[http://www.math.yale.edu/~td252/ Tullia Dymarz:]  (arrives Fall 2011) Geometric group theory, quasi-isometric rigidity, large scale geometry of finitely generated groups, solvable groups and quasiconformal analysis.
[http://www.math.wisc.edu/~ellenber/ Jordan Ellenberg:] Arithmetic geometry and algebraic number theory.
[http://www.math.ias.edu/~shamgar/ Shamgar Gurevich:] Geometric representation theory, with applications to harmonic analysis,
signal processing, mathematical physics, and three-dimensional structuring of molecules.

Revision as of 00:14, 27 July 2010

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, and representation theory.

Faculty in algebra

Nigel Boston: Algebraic number theory, group theory, arithmetic geometry, computational algebra, coding theory, cryptography, and other applications of algebra to electrical engineering.

Tullia Dymarz: (arrives Fall 2011) Geometric group theory, quasi-isometric rigidity, large scale geometry of finitely generated groups, solvable groups and quasiconformal analysis.

Jordan Ellenberg: Arithmetic geometry and algebraic number theory.

Shamgar Gurevich: Geometric representation theory, with applications to harmonic analysis, signal processing, mathematical physics, and three-dimensional structuring of molecules.