Oberseminar Sommersemester 2024

Datum Vortragender Titel Raum

10.04.2024,  16.00-18.00

Martin Kolb Brownian motion conditioned to spend only a finite amount of time outside a bounded interval: extreme entropic repulsion J3.330

24.04.2024,  16.00--18.00

Dominic Schickentanz Brownian motion conditioned to have restricted $L_2$-norm  

08.04.2024,  16.00-18.00

Daniel Knaup A new model of a random polymer in between the Edwards model und a model of Benjamini/Berestycki  

15.05.2024, 16.00-18.00

Jonas Köppl, Berlin    
29.05.2024,  16.00-18.00 Matthias Reitzner, Osnabrück    
12.06.2024, 16.00-18.00 Sebastian Mentemeier, Hildesheim    
19.02.2024, 16.00-18.00 Martin Kolb On the collapse of trial solutions for a damped-driven nonlinear Schrödinger equation according to Assing/Hilbert  

Vorträge im Sommersemester 2023





19.04.23, 16.00 Uhr

Kasun Fernando

Limit Theorems for a class of unbounded observables with an application to "Sampling the Lindelöf hypothesis"


04.05.23, 14.00 Uhr

Daniel Rudolf

Slice Sampling

D2.314, hybrid

10.05.23, 14.00 Uhr

Angela Capel Cuevas A generic quantum Wielandt’s inequality digital via Zoom
17.05.23, 16.00 Uhr Daniel Knaup Brownian motion with limited local times D2.314

24.05.23, 14.00 Uhr

Dominic Hangleiter Quantum random sampling using bosons and qubits J3.330

21.06.23, 16.00 Uhr

Pia Hamelamnn



12.07.23, 16.00 Uhr Martin Kolb Brownian entropic repulsion: Analysis of an extreme case of entropic repulsion  


Vorträge im Wintersemester 2022/23





07.09.2022 David Berger Liouville property for a class of non-local operators  
20.10.2022 Tobias Hurth Randomly switched ODEs with nonexponential switching times  A3 339
16:00 Uhr
Michael Voit Freezing Limits for Calogero-Moser-Sutherland particle models A3 339

17.11.2022 16.00 Uhr

Gerold Alsmeyer Branching in random environment, linear fractional distributions and perpetuities A3 339

08.12.2022 14.00 Uhr

Leif Döring On finiteness and distributions of path integrals for Markov processes A3 339
15.12.2022 Alexander Klump Verteidigung