Parameter estimation and uncertainty quantification using information
geometry
 Sharp, J Browning, A Burrage, K Simpson, M (24 Nov 2021) http://arxiv.org/abs/2111.12201v3
Reducing phenotype-structured PDE models of cancer evolution to systems
of ODEs: a generalised moment dynamics approach
 Villa, C Maini, P Browning, A Jenner, A Hamis, S Cassidy, T (03 Jun 2024) http://arxiv.org/abs/2406.01505v2
Inferring parameters for a lattice-free model of cell migration and proliferation using experimental data
 Browning, A McCue, S Binny, R Plank, M Shah, E Simpson, M
Author response: Quantitative analysis of tumour spheroid structure
 Browning, A Sharp, J Murphy, R Gunasingh, G Lawson, B Burrage, K Haass, N Simpson, M (19 Nov 2021)
Rapid Optical Clearing for High-Throughput Analysis of Tumour Spheroids
 Gunasingh, G Browning, A Haass, N
Rapid Optical Clearing for High-Throughput Analysis of Tumour Spheroids
 Gunasingh, G Browning, A Haass, N
Rapid Optical Clearing for Semi-High-Throughput Analysis of Tumor Spheroids
 Gunasingh, G Browning, A Haass, N Journal of Visualized Experiments issue 186 (23 Aug 2022)
Mon, 02 Jun 2025
16:30
L4

Overhanging solitary water waves

Monica Musso
(University of Bath)
Abstract
In this talk we consider the classical water wave problem for an incompressible inviscid fluid occupying a time-dependent domain in the plane, whose boundary consists
of a fixed horizontal bed  together with an unknown free boundary separating the fluid from the air outside the confining region.
We provide the first construction of overhanging gravity water waves having the approximate form of a disk joined to a strip by a thin neck. The waves are solitary with constant vorticity, and exist when an appropriate dimensionless gravitational constant is sufficiently small. Our construction involves combining three explicit solutions to related problems: a disk of fluid in rigid rotation, a linear shear flow in a strip, and a rescaled version of an exceptional domain discovered by Hauswirth, Hélein, and Pacard, the hairpin. The method developed here is related to the construction of constant mean curvature surfaces through gluing.
This result is in collaboration with J. Davila, M. Del Pino, M. Wheeler.
Mon, 26 May 2025
16:30
L4

Are $L^\infty$ solutions to hyperbolic systems of conservation laws unique?

Sam Krupa
(ENS Paris)
Abstract

For hyperbolic systems of conservation laws in 1-D, fundamental questions about uniqueness and blow up of weak solutions still remain even for the apparently “simple” systems of two conserved quantities such as isentropic Euler and the p-system. Similarly, in the multi-dimensional case, a longstanding open question has been the uniqueness of weak solutions with initial data corresponding to the compressible vortex sheet. We address all of these questions by using the lens of convex integration, a general method of constructing highly irregular and non-unique solutions to PDEs. Our proofs involve computer-assistance. This talk is based on joint work with László Székelyhidi, Jr.
 

Mon, 19 May 2025
16:30
L4

Weak solutions for the Navier-Stokes system for a compressible fluid with non-isotropic viscous-stress tensor.

Cosmin Burtea
(Université Paris Cité)
Abstract

When dealing with PDEs arising in fluid mechanics, bounded-energy weaksolutions are, in many cases, the only type of solutions for which one can guarantee global existence without imposing any restrictions on the size of the initial data or forcing terms. Understanding how to construct such solutions is also crucial for designing stable numerical schemes.

In this talk, we will explain the strategy for contructing weak solutions for the Navier-Stokes system for viscous compressible flows, emphasizing the difficulties encountered in the case of non-isotropic viscous stress tensors. In particular, I will present some results obtained in collaboration with Didier Bresch and Maja Szlenk.

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