Today sees the pilot launch of Oxford Unbounded, our free online mentoring programme to help students achieve top grades at Maths GCSE/National 5s. Teachers at selected schools across the UK, with a high proportion of students from backgrounds underrepresented at Oxford, have been invited to nominate students in Year 10 (or equivalent).
Ben Green and Alex Scott have been awarded European Research Council (ERC) Advanced Grants. The grants are one of the most prestigious and competitive research awards in the world, providing long-term funding to well-established, leading scientists and scholars who wish to pursue groundbreaking, high-risk projects that push the frontiers of knowledge.
Dualities and trialities in $$ \mathcal{N} $$ = 2 supersymmetric gauged quantum mechanics
Closset, C
Wynne, J
Journal of High Energy Physics
volume 2026
issue 6
(05 Jun 2026)
The Neural Tangent Kernel for Classification
Plenk, J
Calvo-Ordonez, S
Cartea, A
Gal, Y
van der Wilk, M
Ciosek, K
(22 May 2026)
Thu, 25 Jun 2026
13:00 -
14:00
Lecture Room 4
Temporal high-order structure-preserving parametric finite element methods for curvature flows
Prof Chunmei Su
(Tsinghua University)
Abstract
Professor Chunmei Su will talk about: 'Temporal high-order structure-preserving parametric finite element methods for curvature flows'
The quality of the mesh is crucial for simulating curvature flows, as standard approaches may fail due to mesh distortion. We first present a series of high-order parametric finite element methods based on the Barrett-Garcke--Nurnberg formulation for solving various types of flows involving curves and surfaces. Extensive numerical experiments demonstrate the anticipated high-order accuracy while maintaining favorable mesh quality throughout the evolution process. Secondly, for flows involving multiple geometric structures, such as surface diffusion—which reduces area while preserving volume—we propose a type of structure-preserving method that incorporates two scalar Lagrange multipliers along with two evolution equations related to area and volume, respectively. These schemes effectively preserve the geometric structure at a fully discrete level. Comprehensive numerical experiments illustrate that our methods achieve the desired temporal accuracy, while simultaneously preserving the geometric structure of the surface diffusion.
Recurrence relations and the Christoffel-Darboux formula for a special class of elliptic orthogonal polynomials
Desiraju, H
Lahiry, S
Journal of Physics A: Mathematical and Theoretical
(22 May 2026)
Modeling flying formations as flow-mediated matter
Mavroyiakoumou, C
Wu, J
Ristroph, L
Physical Review Fluids
volume 11
issue 6
(18 Jun 2026)
Thu, 05 Nov 2026
14:00
14:00
TBA
Sara Shashaani
(North Carolina State University)
Abstract
TBA; the speaker is visiting during term and this date can be flexible.
Thick embeddings of graphs into symmetric spaces via coarse geometry
Barrett, B
Hume, D
Guth, L
Portnoy, E
Transactions of the American Mathematical Society
volume 378
issue 2
885-909
(12 Dec 2024)