Departmental PhD Thesis Exam – Jack Ding

Thursday, August 19, 2021
10:00 a.m.

PhD Candidate: Jack Ding
Supervisor: Lisa Jeffrey
Thesis title:  The Atiyah-Bott Lefschetz formula applied to the based loops on






A copy of the thesis can be found here:

Departmental PhD Thesis Exam – Roger Bai

Monday, August 16, 2021
3:00 p.m. (sharp)

PhD Candidate: Roger Bai
Supervisor: Joel Kamnitzer
Thesis title:  Cluster Structure for Mirkovic-Vilonen Cycles and Polytopes





A copy of the thesis can be found here: Cluster_Structure_for_MV_Cycles_and_PolytopesFinal

Departmental PhD Thesis Exam – Dylan Butson

Wednesday, August 18, 2021
10:00 a.m. (sharp)

PhD Candidate: Dylan Butson
Supervisor: Kevin Costello
Thesis title:  Equivariant Localization in Factorization Homology and Vertex
Algebras from Supersymmetric Gauge Theory





A copy of the thesis can be found here: thesis draft-1

Departmental PhD Thesis Exam – Qin Deng

Wednesday, August 25 2021
2:00 p.m. (sharp)

PhD Candidate: Qin Deng
Supervisor: Vitali Kapovitch
Thesis title:  Hölder continuity of tangent cones and non-branching in RCD(K,N) spaces



A copy of the thesis can be found here:  Thesis Formatted

Departmental PhD Thesis Exam – Andrew Colinet

Wednesday, August 18, 2021
11:00 a.m. (sharp)

PhD Candidate: Andrew Colinet
Supervisor: Robert Jerrard
Thesis title: Geometric Behaviour of Solutions to Equations of Ginzburg-Landau
Type on Riemannian Manifolds


In this thesis, we demonstrate the existence of complex-valued solutions to the Ginzburg-Landau equation
-\Delta{}u+\frac{1}{\varepsilon^{2}}u(|u|^{2}-1)=0\hspace{20pt}\text{on }M,

for $\varepsilon\ll1$, where $M$ is a three dimensional compact manifold without boundary, that have interesting geometric properties. Specifically, we argue the existence of solutions whose vorticity concentrates about an arbitrary closed nondegenerate geodesic on $M$.
In doing this, we extend the work of \cite{JSt} and \cite{Mes} who showed that there are solutions whose energy converges, after rescaling, to the arclength of a geodesic as above.

An important ingredient in the proof is a heat flow argument, which requires detailed information about limiting behaviour of solutions of the parabolic Ginzburg-Landau equation. Providing the necessary limiting behaviour is the other contribution of this thesis. In fact, more is achieved. Provided that $N\ge3$, we give a structural description of the limiting behaviour of solutions to the parabolic Ginzburg-Landau equation on an $N$-dimensional compact manifold without boundary $(M,g)$. More specifically, we are able to show that the limit of the renormalized energy measure orthogonally decomposes into a diffuse part, absolutely continuous with respect to the volume measure on $M$ induced by $g$, and a concentrated vortex part, supported on a codimension $2$ surface contained in $M$. Moreover, the diffuse part of the limiting energy has its time evolution governed by the heat equation while the concentrated part evolves in time according to a measure theoretic version of mean curvature flow. This extends the work of \cite{BOS2} who proved this for $N$-dimensional Euclidean space provided that $N\ge2$.

A copy of the thesis can be found here: Andrew_Colinet_Thesis

Departmental PhD Thesis Exam – Ivan Telplukhovskiy

Thursday, July 29, 2021
1:00 p.m. (sharp)

PhD Candidate:  Ivan Telpukhovskiy
Supervisor:   Kasra Rafi
Thesis title: On the geometry of the Thurston metric on Teichmüller spaces: geodesics
that disobey an analogue of Masur’s criterion


We construct a counterexample for an analogue of Masur’s criterion in the setting
of Teichmüller space with the Thurston metric. For that, we find a minimal, filling,
non-uniquely ergodic lamination λ on the seven-times punctured sphere with uniformly bounded annular projection distances. Then we show that a geodesic in the
corresponding Teichmüller space that converges to λ, stays in the thick part for the
whole time.

A copy of the thesis can be found here: ivan-telpukhovskiy-thesis-draft-1

Departmental PhD Thesis Exam – Artane Siad

Monday, July 12, 2021
1:00 p.m. (sharp)

PhD Candidate:  Artane Siad
Supervisor:   Arul Shankar
Thesis title: Monogenic Fields with Odd Class Number


We prove an upper bound on the average number of 2-torsion elements in the class group monogenised fields of any degree $n \ge 3$, and, conditional on a widely expected tail estimate, compute this average exactly. As an application, we show that there are infinitely many number fields with odd class number in any even degree and signature. This completes a line of results on class number parity going back to Gauss.

A copy of the thesis can be found here: thesis v3

Mathematics Graduate Career Event – May 7, 2021

Have you ever wondered what you can do with an advanced degree in mathematics?

The Department of Mathematics is hosting a panel discussion with UofT mathematics alumni who are working in the exciting fields of data science, consulting, education, finance and many other interesting fields.

Please come to this panel to discover:

1. career options available to advanced degree holders in mathematics,

2. what skills you can cultivate for a specific career,

3. what kinds of mathematics are used industry-specific careers, and much more.

See poster here: Graduate Career Poster – 2021

Departmental PhD Thesis Exam – Jamal Kawach

Thursday, June 24, 2021
2:00 p.m. (sharp)

PhD Candidate:  Jamal Kawach
Supervisor:   Stevo Todorcevic
Thesis title: Approximate Ramsey Methods in Functional Analysis


We study various aspects of approximate Ramsey theory and its interactions with functional analysis. In particular, we consider approximate versions of the structural Ramsey property and the amalgamation property within the context of multi-seminormed spaces, Fréchet spaces and other related structures from functional analysis. Along the way, we develop the theory of Fraïssé limits of classes of finitedimensional Fréchet spaces, and we prove a version of the Kechris-Pestov-Todorčević correspondence relating the approximate Ramsey property to the topological dynamics of the isometry groups of certain
infinite-dimensional Fréchet spaces. Motivated by problems regarding the structural Ramsey theory of Banach spaces, we study various generalizations of the Dual Ramsey Theorem of Carlson and Simpson.
Specifically, using techniques from the theory of topological Ramsey spaces we obtain versions of the Dual Ramsey Theorem where ω is replaced by an arbitrary countable ordinal. Moving toward block Ramsey theory, we prove an infinite-dimensional version of Gowers’ approximate Ramsey theorem concerning the oscillation stability of S(c0), the unit sphere of the Banach space c0. We then show that results of this form can be parametrized by products of infinitely many perfect sets of reals, and we use this result to
obtain a parametrized version of Gowers’ c0 theorem.

A copy of the thesis can be found here: Kawach ut-thesis

Departmental PhD Thesis Exam – Seong Hyun Park

Monday, April 12, 2021
1:00 p.m. (sharp)

PhD Candidate:  Seong Hyun Park
Supervisor:   Jérémie Lefebvre
Thesis title: Adaptive myelination and its synchronous dynamics in the Kuramoto network model with state-
dependent delays


White matter pathways form a complex network of myelinated axons that play a critical role in brain function by facilitating the timely transmission of neural signals. Recent evidence reveals that white matter networks are adaptive and that myelin undergoes continuous reformation through behaviour and learning during
both developmental stages and adulthood in the mammalian lifecycle. Consequently, this allows axonal conduction delays to adjust in order to regulate the timing of neuron signals propagating between different brain regions. Despite its newly founded relevance, the network distribution of conduction delays have yet
to be widely incorporated in computational models, as the delays are typically assumed to be either constant or ignored altogether. From its clear influence towards temporal dynamics, we are interested in how adaptive myelination affects oscillatory synchrony in the brain. We introduce a plasticity rule into the delays
of a weakly coupled oscillator network, whose positions relative to its natural limit cycle oscillations is described through a coupled phase model. From this, the addition of slowly adaptive network delays can potentially lead coupled oscillators to a more phase synchronous limit cycle. To see how adaptive white matter remodelling can shape synchronous dynamics, we modify the canonical Kuramoto model by enabling all connections with phase-dependent delays that change over time. We directly compare the synchronous behaviours of the Kuramoto
model equipped with static delays and adaptive delays by analyzing the synchronized equilibria and stability of the system’s phases. Our mathematical analysis of the model with dirac and exponentially distributed connection delays, supported by numerical simulations, demonstrates that larger, more widely varying distributions of delays generally impede synchronization in the Kuramoto network. Adaptive delays act as a stabilizing mechanism for the synchrony of the network by adjusting towards a more optimal distribution of delays. Adaptive delays also make global synchronization more resilient to perturbations and injury
towards network architecture. Our results provide insights about the potential significance of activity-dependent myelination. For future works, we hope that these results lay out the groundwork to computationally study the influence of adaptative myelination towards large-scale brain synchrony.

A copy of the thesis can be found here: SHP_Dissertation