Kolloquium SS 2026
Speaker: David Reutter, Universität Hamburg – Invited by C. Meusburger
Speaker: Gabriel Wittum, King Abdullah University of Science and Technology (Kingdom of Saudi Arabia) – Invited by N. Neuß
Abstract: Numerical simulation has become one of the major topics in Computational Science. To promote modelling and simulation of complex problems new strategies are needed allowing for the solution of large, complex model systems. Crucial issues for such strategies are reliability, efficiency, robustness, usability, and versatility.
After discussing the needs of large-scale simulation we point out basic simulation strategies such as adaptivity, parallelism and multi-grid solvers. To allow adaptive, parallel computations the load balancing problem for dynamically changing grids has to be solved efficiently by fast heuristics. These strategies are combined in the simulation system UG (“Unstructured Grids”) being presented in the following.
In the second part of the seminar we show the performance and efficiency of this strategy in various applications. In particular, the application and benefit of parallel adaptive multi-grid methods to modelling drug permeation through human skin is shown in detail.
Speaker: Chia Kiesel, Lea Boßmann, Hermann Schulz-Baldes, Anke Lindmeier, Friedrich-Alexander-Universität Erlangen-Nürnberg – Invited by A. Lindmeier
Speaker: Daniel Grieser, Carl von Ossietzky Universität Oldenburg – Invited by A. Knauf
Abstract: Die Eingangsphase des Mathematik-Studiums bedeutet für alle Beteiligten große Herausforderungen: für die Studierenden, z.B. weil sie mit einer neuen Sprache und Praxis der Mathematik konfrontiert werden und dadurch ihr bisher (meist) geliebtes Fach kaum wiedererkennen; für die Lehrenden, z.B. weil sie einen guten Weg finden wollen, die Studierenden in die Welt der ‚Hochschulmathematik‘ zu führen und dabei deren Motivation zu erhalten und, besser noch, zu fördern. Ich werde im Vortrag einige Ideen und Maßnahmen vorstellen, die in diesem Kontext an der Uni Oldenburg umgesetzt wurden (z.B. das Modul ‚Mathematisches Problemlösen und Beweisen‘), um danach ins Gespräch über diese Themen zu kommen.
Speaker: Nicolas Neuß, Friedrich-Alexander-Universität Erlangen-Nürnberg – Invited by K.-H. Neeb
Abstract: Viele Aspekte der Covid-19-Pandemie sind wunderschöne Anwendungsbeispiele für mathematische Modellierung und Simulation. Dementsprechend wurden Modelle und Simulationen ja auch wesentlich zur politischen Entscheidungsfindung in dieser Zeit genutzt. In diesem Vortrag schauen wir uns einige Beispiele dafür an und versuchen insbesondere auszuwerten, ob diese Anwendung letztlich erfolgreich war.
Speaker: Lorenz Schwachhöfer, Technische Universität Dortmund – Invited by K.-H. Neeb
Abstract: How do we measure the distance between two probability distributions? While classical approaches often treat distributions as static functions, the theory of Optimal Transport offers a dynamic perspective: the distance reflects the minimal effort required to rearrange one distribution into another. This geometric viewpoint transforms the space of probability measures into an infinite-dimensional Riemannian manifold – an idea formalized by the Otto calculus.
In this talk, we will explore the rich geometry of this „Wasserstein space“ and relate it to other classical notions of Information Geometry.
Speaker: Gerd Antes, Albert-Ludwigs-Universität Freiburg – Invited by N. Neuß
Speaker: Cristina Palmer-Anghel, Université Clermont Auvergne – Invited by C. Meusburger
Abstract: Quantum link invariants have their origin in representation theory and their geometry is a main open problem in quantum topology. Coloured Jones and coloured Alexander polynomials are two such sequences of invariants whose asymptotics are conjectured to capture deep geometric information. We will present a new topological perspective that unifies these invariants through the topology of configuration spaces. First, for a fixed level, we show that we can read off both coloured Jones and Alexander polynomials of a link from a fixed Lagrangian intersection in a configuration space. At the asymptotic level, Habiro defined his famous universal knot invariant globalising coloured Jones polynomials via representation theory, by introducing the Habiro ring. For the link case, this globalisation remained as an open problem for both sequences of invariants. We answer this open problem originating in representation theory using topological tools. On the representation theory side we develop extensions of Habiro type rings.On the topological side, we define geometrically a universal Jones link invariant and a universal Alexander link invariant via graded intersections in configuration spaces. Putting these together, our universal invariants of purely geometrical nature take values in the extended Habiro rings that we construct.
Speaker: Jussi Behrndt, Technische Universität Graz – Invited by H. Schulz-Baldes
Abstract: In this talk, we discuss qualitative spectral properties of self-adjoint Schrödinger and Dirac operators. We first briefly review some of the standard results for regular potentials from the literature and turn to more recent developments afterwards. Our main objective in this lecture is to discuss differential operators with singular potentials supported on curves or hyperplanes, where in the case of Dirac operators it is necessary to distinguish the so-called non-critical and critical cases for the strength of the singular perturbation. In particular, it turns out that Dirac operators with singular potentials in the critical case have some unexpected spectral properties.