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Welcome to Pure Mathematics

We are home to 30 faculty, four staff, approximately 60 graduate students, several research visitors, and numerous undergraduate students. We offer exciting and challenging programs leading to BMath, MMath and PhD degrees. We nurture a very active research environment and are intensely devoted to both ground-breaking research and excellent teaching.


News

Friday, September 29, 2023

Spring 2023 Graduands

Congratulations to Clement Wan, MMath and Eric Boulter, PhD, who convocated in Spring 2023. Best of luck in your future endeavours!

Events

Tuesday, November 12, 2024 10:20 am - 11:10 am EST (GMT -05:00)

Number Theory Seminar

Rizwanur Khan, University of Texas at Dallas

Eisenstein series and the Random Wave Conjecture

What do automorphic forms "look" like when plotted on the modular surface? Quantum chaos predictions say that they should tend to look more and more like random waves. We'll discuss the relevant conjecture and report on progress for a fundamental type of automorphic form - the Eisenstein series. This is joint work with Goran Djanković.

Tuesday, November 12, 2024 11:00 am - 12:00 pm EST (GMT -05:00)

Algebraic Geometry Working Seminar

Jesse Huang, University of Waterloo

Cohen-Macaulay Modules

Cohen-Macaulay modules are central objects of study in commutative algebra, with deep connections to algebraic geometry, singularity theory, and homological algebra. In this talk, we give a brief overview of the connection between Cohen-Macaulay modules and geometric objects, particularly how these modules can be used to study the local behavior of varieties at singular points. Several classical examples, including modules over regular local rings and isolated singularities, will illustrate the practical utility of Cohen-Macaulay theory in understanding algebraic structures. We will also touch on Cohen-Macaulay modules over toric Gorenstein rings and the role of mirror symmetry in the study of these modules.

MC 5403

Tuesday, November 12, 2024 3:30 pm - 4:30 pm EST (GMT -05:00)

McMaster-Waterloo Model Theory Seminar

Chris Schulz, University of Waterloo

Toward a characterization of k-automatic structures

We consider structures over Presburger arithmetic that include k-automatic sets, that is to say, sets recognized by a base-k finite automaton. The question of how many such structures exist up to interdefinability is a complex one, with a deceptively simple conjectured answer. We give a proof of this conjecture in the restricted case of expansion by a single unary set, and we discuss potential strategies for handling the multivariate case. This talk is based on joint work with Jason Bell and Alexi Block Gorman.

MC 5403