Column one has the course number and section. Other columns show the course title, days offered, instructor's name, room number, if the course is cross-referenced with another program, and a option to view additional course information in a pop-up window.
Course # (Section)
Title
Day/Times
Instructor
Room
PosTag(s)
Info
AS.110.645 (01)
Riemannian Geometry
TTh 10:30AM - 11:45AM
Mese, Chikako
Krieger 180
Riemannian Geometry AS.110.645 (01)
Differential manifolds, vector fields, flows, Frobenius’ theorem. Differential forms, deRham’s theorem, vector bundles, connections, curvature, Chern classes, Cartan structure equations. Riemannian manifolds, Bianchi identities, geodesics, exponential maps. Geometry of submanifolds, hypersurfaces in Euclidean space. Other topics as time permits, e.g., harmonic forms and Hodge theorem, Jacobi equation, variation of arc length and area, Chern-Gauss-Bonnet theorems.
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 10/20
PosTag(s): n/a
AS.110.605 (01)
Real Variables
MW 12:00PM - 1:15PM
Bernstein, Jacob
Hodson 315
Real Variables AS.110.605 (01)
Measure and integration on abstract and locally compact spaces (extension of measures, decompositions of measures, product measures, the Lebesgue integral, differentiation, Lp-spaces); introduction to functional analysis; integration on groups; Fourier transforms.
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 8/20
PosTag(s): n/a
AS.110.632 (01)
Partial Differential Equations II
MW 12:00PM - 1:15PM
Sire, Yannick
Krieger 204
Partial Differential Equations II AS.110.632 (01)
An introductory graduate course in partial differential equations. Classical topics include first order equations and characteristics, the Cauchy-Kowalevski theorem, Laplace's equation, heat equation, wave equation, fundamental solutions, weak solutions, Sobolev spaces, maximum principles. The second term focuses on special topics such as second order elliptic theory.
Credits: 0.00
Level: Graduate
Status: Open
Seats Available: 19/20
PosTag(s): n/a
AS.110.608 (01)
Riemann Surfaces
MW 12:00PM - 1:15PM
Staff
Riemann Surfaces AS.110.608 (01)
Abstract Riemann surfaces. Examples: algebraic curves, elliptic curves and functions on them. Holomorphic and meromorphic functions and differential forms, divisors and the Mittag-Leffler problem. The analytic genus. Bezout's theorem and applications. Introduction to sheaf theory, with applications to constructing linear series of meromorphic functions. Serre duality, the existence of meromorphic functions on Riemann surfaces, the equality of the topological and analytic genera, the equivalence of algebraic curves and compact Riemann surfaces, the Riemann-Roch theorem. Period matrices and the Abel-Jacobi mapping, Jacobi inversion, the Torelli theorem. Uniformization (time permitting).
Credits: 0.00
Level: Graduate
Status: Canceled
Seats Available: 30/30
PosTag(s): n/a
AS.110.615 (01)
Algebraic Topology
MW 10:30AM - 11:45AM
Kitchloo, Nitya
Krieger 204
Algebraic Topology AS.110.615 (01)
Polyhedra, simplicial and singular homology theory, Lefschetz fixed-point theorem, cohomology and products, homological algebra, Künneth and universal coefficient theorems, Poincaré and Alexander duality theorems.
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 8/20
PosTag(s): n/a
AS.110.617 (01)
Number Theory
TTh 10:30AM - 11:45AM
Consani, Caterina
Number Theory AS.110.617 (01)
Topics in advanced algebra and number theory, including local fields and adeles, Iwasawa-Tate theory of zeta functions and connections with Hecke’s treatment, semisimple algebras over local and number fields, adeles geometry.
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 18/20
PosTag(s): n/a
AS.110.637 (01)
Functional Analysis
MW 9:00AM - 10:15AM
Dodson, Benjamin
Gilman 75
Functional Analysis AS.110.637 (01)
Credits: 0.00
Level: Graduate
Status: Open
Seats Available: 5/19
PosTag(s): n/a
AS.110.643 (01)
Algebraic Geometry
TTh 9:00AM - 10:15AM
Han, Jingjun
Krieger Laverty
Algebraic Geometry AS.110.643 (01)
Affine varieties and commutative algebra. Hilbert’s theorems about polynomials in several variables with their connections to geometry. General varieties and projective geometry. Dimension theory and smooth varieties. Sheaf theory and cohomology. Applications of sheaves to geometry; e.g., the Riemann-Roch theorem. Other topics may include Jacobian varieties, resolution of singularities, geometry on surfaces, connections with complex analytic geometry and topology, schemes.
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 15/19
PosTag(s): n/a
AS.110.675 (01)
High-Dimensional Approximation, Probability, and Statistical Learning
MW 1:30PM - 2:45PM
Maggioni, Mauro
High-Dimensional Approximation, Probability, and Statistical Learning AS.110.675 (01)
The course covers fundamental mathematical ideas for certain approximation and statistical learning problems in high dimensions. We start with basic approximation theory in low-dimensions, in particular linear and nonlinear approximation by Fourier and wavelets in classical smoothness spaces, and discuss applications in imaging, inverse problems and PDE’s. We then introduce notions of complexity of function spaces, which will be important in statistical learning. We then move to basic problems in statistical learning, such as regression and density estimation. The interplay between randomness and approximation theory is introduced, as well as fundamental tools such as concentration inequalities, basic random matrix theory, and various estimators are constructed in detail, in particular multi scale estimators. At all times we consider the geometric aspects and interpretations, and will discuss concentration of measure phenomena, embedding of metric spaces, optimal transportation distances, and their applications to problems in machine learning such as manifold learning and dictionary learning for signal processing.
Credits: 0.00
Level: Graduate
Status: Canceled
Seats Available: 40/40
PosTag(s): n/a
AS.110.601 (01)
Algebra
TTh 12:00PM - 1:15PM
Shokurov, Vyacheslav
Krieger 180
Algebra AS.110.601 (01)
An introductory graduate course on fundamental topics in algebra to provide the student with the foundations for number theory, algebraic geometry, and other advanced courses. Topics include group theory, commutative algebra, Noetherian rings, local rings, modules, rudiments of category theory, homological algebra, field theory, Galois theory, and non-commutative algebras.
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 9/20
PosTag(s): n/a
AS.110.727 (01)
Topics in Algebraic Topology
MW 9:00AM - 10:15AM
Kitchloo, Nitya
Krieger 204
Topics in Algebraic Topology AS.110.727 (01)
Credits: 0.00
Level: Graduate
Status: Open
Seats Available: 11/15
PosTag(s): n/a
AS.110.712 (01)
Topics in Mathematical Physics
MW 1:30PM - 2:45PM
Staff
Topics in Mathematical Physics AS.110.712 (01)
Credits: 0.00
Level: Graduate
Status: Canceled
Seats Available: 10/10
PosTag(s): n/a
AS.110.737 (01)
Topics Algebraic Geometry
TTh 10:30AM - 11:45AM
Shokurov, Vyacheslav
Krieger 204
Topics Algebraic Geometry AS.110.737 (01)
Credits: 0.00
Level: Graduate
Status: Open
Seats Available: 27/30
PosTag(s): n/a
AS.110.801 (02)
Thesis Research
Consani, Caterina
Thesis Research AS.110.801 (02)
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 25/25
PosTag(s): n/a
AS.110.801 (03)
Thesis Research
Lindblad, Hans
Thesis Research AS.110.801 (03)
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 23/25
PosTag(s): n/a
AS.110.801 (04)
Thesis Research
Sogge, Christopher
Thesis Research AS.110.801 (04)
Credits: 4.00
Level: Graduate
Status: Open
Seats Available: 24/25
PosTag(s): n/a
AS.110.749 (01)
Topics in Differential Geometry
MW 12:00PM - 1:15PM
Wang, Yi
Gilman 217
Topics in Differential Geometry AS.110.749 (01)
In this class, we will study Aaron Naber and Jeff Cheeger's recent result on proving codimension four conjecture. We plan to talk about some early results of the structure on manifolds with lower Ricci bound by Cheeger and Colding. We will prove quantitative splitting theorem, volume convergence theorem, and the result that almost volume cone implies almost metric cone. Then we will discuss regularity of Einstein manifolds and the codimension four conjecture.
