Felix-Klein-Kolloquium: Loss of Hyperbolicity in Complex Systems

Hyperbolicity is one of the cornerstones of applied mathematics as it allows for local linearization. Once hyperbolicity fails, the fully nonlinear problem has to be studied. This paradigm is the key of classical bifurcation theory, which teaches us to always reduce the dynamics to the most simple, often even finite-dimensional, normal form. This reductionist process necessarily discards potentially important information. I shall discuss three cases of more complex systems, where a loss of hyperbolicity can yield additional information. As the main tool to reveal this information, we shall use geometric desingularization. The first case comes from non-autonomous systems (and also applies to stochastic ordinary differential equations), where a hidden delay equation arises. The second case covers adaptive and fast-slow networks, where new graphs arise during desingularization. In the third case, we shall consider multiscale PDEs that generate hidden transport terms near non-hyperbolic solutions. These examples show that the loss of hyperbolicity generates important new challenges in complex systems. 

The talk is based upon joint work with several co-authors [1, 2, 3, 4, 5, 6] - References: 
 [1] L. Arcidiacono and C. Kühn. Blowing-up asymptotically autonomous planar vector fields: Infinite delay equations and invariant manifolds. J. Dyn. Diff. Eq., pages 1-26, 2025.  
[2] M. Engel, F. Hummel, C. Kühn, N. Popovi´c, M. Ptashnyk, and T. Zacharis. Geometric analysis of fast-slow PDEs with fold singularities via Galerkin discretisation. Nonlinearity, 37(11):115017, 2024.  
[3] M. Engel and C. Kühn. Geometric analysis of a truncated Galerkin discretization of fast-slow PDEs with transcritical singularities. SIAM J. Appl. Dyn. Syst., 23(4):2853-2898, 2024.  
[4] H. Jardon-Kojakhmetov and C. Kühn. On network dynamical systems with a nilpotent singularity. arXiv, pages 1-36, 2023.  
[5] S. Jelbart and C. Kühn. A formal geometric blow-up method for pattern forming systems. In M. Engel, H. Jard´on-Kojakhmetov, and C. Soresina, editors, Topics in Multiple Time Scale Dynamics, volume 806, pages 49-86. AMS, 2024.  
[6] S. Jelbart, C. Kuehn, and A.M. Sanchez. Characterising exchange of stability in scalar reaction-diffusion equations via geometric blow-up. arXiv:2411.13679, pages 1-37, 2024. 

Referent: Prof. Dr. Christian Kühn, Technische Universität München

Zeit: 16:15 - 17:30 Uhr

Ort: Gebäude 48, Raum 210

ACHTUNG: Der Vortrag im Rahmen des Felix-Klein-Kolloquiums findet ausnahmsweise bereits um 16:15 Uhr statt. Zuvor gibt es, wie üblich, ab 15:45 Uhr die Gelegenheit, den Sprecher beim Kolloquiumstee in Raum 48-580 zu treffen.