Special Topics Course Archive

The following special topics courses were offered in the past.

Spring 2024

Math 519-001 - p-adic analysis and zeta functions (Doug Haessig)
Math 529-002 - Proof Writing and Proof Checking with a Computer (Sergey Cherkis)
Math 577-001 - Monte Carlo Methods (Ibrahim Fatkullin)
Math 588-001 - Infinite-Dimensional Analysis and Quantum Theory (Janek Wehr)

Fall 2023

Math 518-001 - Homological Algebra (Klaus Lux)
Math 529-001 - Optimal transport and its applications (Chris Hernderson)
Math 577-001 - Stochastic Control & Learning (Misha Chertkov)
Math 577-002 - High Dimensional Probability and Nonasymptotic Statistics (Ning Hao)

Spring 2023

Math 519-001 - Modular Forms and Representation Theory - (Hang Xue)
Math 577-001 - Theoretical Fluid Dynamics - (Laura Miller)
Math 577-002 - Information, Energy and Machine Learning - (Marek Rychlik)
Math 588-001 - Spectral Theory and Quantum Mechanics - (Janek Wehr)

Fall 2022

Math 538-001 - Geometric Invariant Theory and Moduli Problems - (Yi Hu)
Math 577-001 - Inference, Learning and Optimization with Graphs and Networks – (Michael Chertkov)
Math 577-002 - Introduction to Information Theory – (Janek Wehr)

Spring 2022

Math 518-001 - p-adic Analysis and Zeta Functions - (C. Douglas Haessing)
Math 577-001 - Monte Carlo Methods – (Kevin Lin)

Special topics courses for Spring 2021

Math 519-001 - Introduction to p-adic Hodge theory - (Brandon Levin)
Math 577-001 - Computability and Logic – (Janek Wehr)

Special topics courses for Spring 2020

Math 529-001 - Riemann-Hilbert Problems and Their Applications - (Nick Ercolani)
Math 538-001 - Topology in Physics – (Sergey Cherkis)
Math 538-002 - Discrete Geometry and Geometric Graph Theory – (David Glickenstein)
Math 538-003 - Symplectic Geometry and Integrable Systems – (Anton Izosimov)
Math 577-001 - Advanced Linear Algebra for Data Science – (Keaton Hamm)
Math 577-002 - A Look Inside the “Nature of Computation” – (Marek Rychlik)

Special topics courses for Fall 2019

Math 518-001 - Algebras and Their Representations – (Klaus Lux)
Math 577-001 - Algorithmic and Computational Statistics – (Robert Maier)
Math 577-002 - Recurrent Neural Networks and Optical Character Recognition – (Marek Rychlik)

Special topics courses for Spring 2019

Math 519-001 - Modular Forms and Representation Theory – (Hang Xue)
Math 577-001 – Monte Carlo Methods – (Kevin Lin)
Math 588-001 - Solitons in Mathematics and Physics – (Vladimir Zakharov)

Fall 2018

Math 529-001 Topics in Partial Differential Equations (Janek Wehr)
Math 577-001 Big Data and Neural Computing (Marek Rychlik)

Spring 2018

Fall 2017Math 529-001 Mathematical foundations of data assimilation and inverseproblems- Part II (Matti Morzfeld)
Math 577-001 Mathematical Neuroscience (Calvin Zhang)

Fall 2017

Math 529-001 Mathematical foundations of data assimilation and inverse problems (Matti Morzfeld)
Math 577-001 Algorithmic and Computational Statistics (Robert Maier)

Spring 2017

Math 519-1: Topics in Number Theory (Hang Xue)
Math 538-1: Graph Theory (David Glickenstein)
Math 577-1: Discrete Dynamical Systems and their Applications (Nick Ercolani)
Math 588-1: New Ideas in Nonequilibrium Statistical Mechanics (Janek Wehr)
Math 588-2: Solitons in Mathematics and Physics (Vladimir Zakharov)

Fall 2016

Math 529-1: Introduction to Micro-local analysis (Lennie Friedlander)
Math 577-1: Information and Coding (Marek Rychlik)

Spring 2016

Math 538-1: Introduction to String Theory (Sergey Cherkis)
Math 577-2: Monte Carlo Methods (Tom Kennedy)

Fall 2015

Math 518-1 - Algebras and their representations (Professor Klaus Lux)
Math 529-1 - Introduction to the Analysis and Geometry of Markov Diffusion Operators (Professor Lotfi Hermi)
Math 538-1 - Topics on Birational Geometry and Singularities (Professor Yi Hu)

Spring 2015

Math 529-1 - Multivariate Statistics (Professor Ning Hao)
Math 529-2 - Solitons in Mathematics and Physics (Professor Vladimir Zakharov)
Math 588-1 - Quantum Computation (Professor Janek Wehr)

Fall 2014

Math 519-1 - Automorphic Representations (Professor David Savitt)
Math 529-2 - Introduction to the Spectral Theory of Partial Differential Equations (Professor Lotfi Hermi)

Spring 2014

Math 538-1 - Geometry of Yang-Mills Theory (Professor Sergey Cherkis)
Math 538-2 - Deformation Theory and Applications (Professor Yi Hu)

Fall 2013

Math 518 - Algebraic Groups and Finite Groups of Lie Type (Professor Pham Tiep)
Math 529 - Analytical Combinatorics of Random Maps (Professor Nick Ercolani)
Math 538 - Topics on Moduli Spaces, Deformation Theory and Stacks (Professor Yi Hu)
Math 577-1 - Convex Analysis and Variational Problems (Professor Bin Dong)
Math 577-2 - Algorithmic and Computational Statistics (Professor Robert Maier)

Spring 2013

Math 529 - Asymptotic analysis in the complex domain with applications to random matrices(Professor Ken McLaughlin)
Math 538-1 - Introduction to Geometric Invariant Theory and Moduli Spaces (Professor Yi Hu)
Math 577-1 - Monte Carlo Methods (Professor Kevin Lin)
Math 577-2 - Applied Functional Analysis (Professor Shankar Venkataramani)

Fall 2012

Math 518 - Homological Algebra (Professor Romyar Sharifi)
Math 596A - Computatbility and Logic (Professor Jan Wehr)

Spring 2012

Math 577-2 - Quantum Information and Error Correction (Professor Marek Rychlik)
Math 588-1 - Large Scale Stochastic Dynamics (Professor Sunder Sethuraman)
Math 588-2 - Solitons in Mathematics and Physics (Professor Vladimir Zakharov)

Fall 2011

Math 518-1 - Algebraic Groups and Finite Groups of Lie Type (Professor Pham Tiep)

Spring 2011

Math 529-1 - Infinite Dimensional Analysis (Professor Jan Wehr)
Math 588-2 - Differential Geometry, General Relativity, and Cosmology (Professor Vladimir Zakharov)

Fall 2010

Math 519-1 - Iwasawa Theory (Professor Romyar Sharifi)

Spring 2010

Math 538-1 - Algebraic curves and their moduli (Professor Ana-Maria Castravet)

Fall 2009

Math 519-1 - The Local Langlands Conjecture for GL(2) (Professor David Savitt)
Math 577-2 - Information Theory, Inference, and Learning Algorithms (Professor Marek Rychlik)

Spring 2009

MATH 518-1 – Integral Lattices, Linear Codes, and Finite Groups (Professor Pham Tiep)
MATH 538-1 – Ricci flow and the Poincare Conjecture (Professor David Glickenstein)
MATH 577-1 – Dynamical Models of Neuronal Computation (Professor Kevin Lin)

Fall 2008

MATH 519-1 – Function Field Arithmetic (Professor Dinesh Thakur)
MATH 519-2 – Tate's Thesis (Professor David Savitt)

Spring 2008

MATH 518-1 – Commutative Algebra (Professor Ana-Maria Castravet)
MATH 519-1 – Representations of p-adic groups (Professor C. Ryan Vinroot)
MATH 529-1 – Universality: Singular limits of partial differential equations and random matrices(Professor Ken McLaughlin)
MATH 538-1 – Topics on Mirror Symmetry (Professor Yi Hu)

Fall 2007

MATH 518-1 – Homological Algebra (Professor Klaus Lux)

Spring 2007

MATH 519-1 – Topics in Arithmetical Algebraic Geometry (Professor Douglas Ulmer)
MATH 538-1 – Introduction to Circle Packing: The Theory of Discrete Analytic Functions(Professor David Glickenstein)
MATH 588-1 – Introduction to the Theory of Nonlinear Waves (Professor Vladimir Zakharov)

Fall 2006

MATH 538-2 – Geometry and dynamics of geodesic flows and billiards (Professor Maciej Wojtkowski)

Spring 2006

MATH 518-1 – Introduction to Commutative Algebra (Professor Kirti Joshi)
MATH 538-1 – Topics in the Geometry of Groups (Professor Dorin Dumitrascu)
MATH 577-1 – Inference from Data and Models in Geosciences and Engineering (Professor Juan Restrepo)
MATH 488/588-1 – Solitons in Mathematics and Physics (Professor Vladimir Zakharov)
MATH 588-2 – Mathematics of Quantum Computation (Professor Haru Pinson)

Fall 2005

MATH 518-1 – Automatic Theorem Proving and Discovery (Professor Marek Rychlik)
MATH 529-1 – The Atiyah–Singer Index Theorem (Professor Dorin Dumitrascu)
MATH 538-1 – Introduction to Geometric Invariant Theory and Moduli Spaces (Professor Yi Hu)

Spring 2005

MATH 519-1 – Zeta Functions (Professor Minhyong Kim)
MATH 529 – Schramm–Loewner Evolutions and Two-Dimensional Statistical Physics (Professor Tom Kennedy)
MATH 519-2 – Introduction to automorphic forms and representations (Professor Kirti Joshi)
MATH 518 – Automated Theorem Proving and Discovery (Professor Marek Rychlik)
MATH 588 – General Relativity and Elements of Cosmology (Professor Vladimir Zakharov)

Special Topics Fall 2004

MATH 519-1 – An introduction to the arithmetic of elliptic curves (Professor Kirti Joshi)
MATH 529-1 – Random matrices (Professors Nicholas Ercolani and Hermann Flaschka)
MATH 538-1 – Symplectic geometry (Professor Philip Foth)
MATH 577-1 – Fourier Analysis and Approximation Theory (Professor Maurice Hasson)

Other course information for Fall 2004

Here are descriptions of regular courses for Fall 2004 whose content varies from semester to semester.

MATH 506A-1 – Research on the Learning of Mathematics (Professor Rebecca McGraw)
MATH 517A-1 – Group Theory (Professor Klaus Lux)
MATH 528A-1 – Banach and Hilbert Space (Professor William Faris)
MATH 536-1 – Algebraic Geometry (Professor Yi Hu)
MATH 541-1 – Introduction to Mathematical Physics (Professor Jan Wehr)
MATH 554-1 – Ordinary Differential Equations (Professor Shankar Venkataramani)
MATH 582-1 – Applied Complex Analysis (Professor Ken McLaughlin)

Spring 2004

MATH 577 – Large Sample Theory of Statistics (Professor Rabinda Bhattacharya)
MATH 529 – Introduction to Micro-local Analysis (Professor Leonid Friedlander)
MATH 518 – Introduction to Commutative Algebra (Professor Kirti Joshi)
MATH 577 – Inverse Modeling in the Geosciences and Engineering (Professor Juan Restrepo)
MATH 518 – Problem Solving and Theorem Proving with Symbolic Computation (Professor Marek Rychlik)
MATH 588 – General Relativity and Elements of Cosmology (Professor Vladimir Zakharov)

Fall 2003

MATH 518 – Computational Group Theory (Professor Klaus Lux)
MATH 577 – Software Tools for Bioinformatics (Professor Robert Maier)
MATH 577 – Wave Turbulence (Professor Alan Newell)
MATH 596A – Topics in Math (Professor Joe Watkins)

Spring 2003

MATH 577 – Pattern Formation (Professor Joceline Lega)

Fall 2002

MATH 529 – Fourier analysis on number fields (Professor Haru Pinson)
MATH 577 – Software Tools for Bioinformatics (Professor Robert Maier)

Other 2001-2002?

Symplectic and Poisson Geometry
Homological Algebra

Spring 2002

MATH 577 – Fluid Turbulence (Professor Greg Eyink)

Fall 2001

MATH 577 – Software Tools for Bioinformatics (Professor Robert Maier)

Spring 2001

MATH 588 – Introduction to General Relativity (Professor Vladimir Zakharov)

Other 1999-2000?

Computational Methods in Algebraic Geometry and Commutative Algebra

Spring 2000

MATH 588 – Pattern Formation (Professor Alan Newell)

Fall 1999

MATH 577 – Introduction to Complex Dynamical Systems (Professor Marek Rychlik)

Other 1998-1999?

Scientific Computing

Spring 1999

MATH 519 – Modular Curves and Modular Forms (Professor Doug Ulmer)
MATH 577 – Modern Software Tools (Professor Robert Maier)
MATH 577 – Geometric Methods in Differential Equations (Professor Martin Juras)

Fall 1998

MATH 577 – Introduction to Structured Population Dynamics (Professor Jim Cushing)

Other 1997-1998?

Topics in Algebraic Geometry

Spring 1998

MATH 577 – Modern Computing (Professor Robert Maier)

Fall 1997

MATH 588 – Group Theory and Physics (Professor Jan Wehr)

Note: The Geostatistics course, seen repeatedly below, became a regular catalog course in Fall 1997. Although still offered each year, it is no longer a "special topics" course, and thus does not appear above.

Other 1996-1997?

Mechanics, Symmetry, and Bifurcations

Spring 1997

MATH 577 – Fronts in Dissipative PDEs (Professor Jack Xin)
MATH 577 – Geostatistics (Professor Don Myers)
MATH 577 – Mathematics of Symbolic Computation (Professor Marek Rychlik)

Spring 1996

MATH 577 – Mechanics, Symmetry, & Bifurcations (continued) (Professor Hermann Flaschka)
MATH 577 – Advanced Geostatistics (Professor Don Myers)

Fall 1995

MATH 577 – Mechanics, Symmetry, & Bifurcations (Professor Hermann Flaschka)
MATH 577 – Geostatistics (Professor Don Myers)

Other 1994-1995?

Dynamic Theory
Introduction to Spectral Theory
Percolation Theory

Spring 1995

Math 588, [TITLE MISSING] (Professor Jan Wehr)
MATH 538 – Algebraic and Abelian Functions (Professor Greg Anderson)

Fall 1994

MATH 577 – Water Waves (Dynamic Theory) (Professor Vladimir Zakharov)
MATH 588 – The Renormalization Group in Mathematical Physics (Professor Tom Kennedy)

Other 1993-1994?

An Algebraic Introduction to Combinatorics and Geometry
Number Theory
Stochastic Analysis and Modeling of Complex Systems

Spring 1994

MATH 577 – Advanced Geostatistics (Professor Don Myers)

Fall 1993

MATH 577 – Geostatistics (Professor Don Myers)

Other 1992-1993

Differential Geometry
Dynamics and Bifurcations
Hodge Theory
Turbulence

Spring 1993

MATH 577 – Nonlinear Optics (Professor Jerome Moloney)
MATH 577 – Chaos & Integrability in Nonlinear Dynamics (Professor Michael Tabor)

Fall 1992

MATH 577 – Geostatistics (Professor Don Myers)
MATH 577 – Nonlinear Optics (Professor Alan Newell)
MATH 577 – Chaos & Integrability in Nonlinear Dynamics (Professor Michael Tabor)

Spring 1991

MATH 577 – Advanced Geostatistics (Professor Don Myers)

Fall 1991

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1990

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1989

MATH 577 – Geostatistics (Professor Don Myers)

Spring 1989

MATH 577 – Advanced Geostatistics (Professor Don Myers)

Fall 1988

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1987

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1986

MATH 577 – Geostatistics (Professor Don Myers)

Spring 1986

MATH 577 – Advanced Geostatistics (Professor Don Myers)

Fall 1985

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1984

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1983

MATH 577 – Geostatistics (Professor Don Myers)

Fall 1982

MATH 577 – Geostatistics (Professor Don Myers)