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Math. Physics
Tue, 06. Jan at 11:15
1.023 (BMS Room, ...
Gaëtan Borot HU Berlin Link Icon
Panorama of matrix models and topological recursion III
Abstract. This is crash course which aims at explaning various aspects of: random matrix ensembles and Coulomb gases, loop equations, spectral curves, topological recursion, maps, free probability, how they fit together and pose some open problems.
Math. Statistics
Wed, 07. Jan at 10:00
Weierstrass-Insti...
Frank Konietschke Charité Link Icon
Algebraic Geometry
Wed, 07. Jan at 13:15
Room: 3.007 John ...
George Hitching OSLOMET Link Icon
Secant loci of scrolls over curves
Abstract. The secant loci associated to a linear system \(l\) over a curve C parametrise effective divisors which impose fewer conditions than expected on \(l\). For a rank \(r\) bundle \(E\) and a space of global sections of \(E\), we define and investigate generalised secant loci, which are determinantal loci on Quot schemes of torsion quotients of \(E\). We extend the Abel-Jacobi map to the context of Quot schemes, and examine the relation between smoothness of generalised secant loci and their associated Brill-Noether loci. In one case, we indicate how formulas of Oprea-Pandharipande and Stark can be used to enumerate the generalised secant locus when it has and attains expected dimension zero.
Langenbach
Wed, 07. Jan at 14:15
WIAS, Erhard-Schm...
André Erhardt WIAS Link Icon
Nonlinear dynamics of complex biophysical processes
Abstract
Math. Physics
Tue, 13. Jan at 11:15
1.023 (BMS Room, ...
Piotr Sulkowski University of Warsaw Link Icon
Numerical Analysis
Tue, 13. Jan at 13:15
Humboldt-Universi...
Konstantin Viol HU Berlin Link Icon
Math. Statistics
Wed, 14. Jan at 10:00
Weierstrass-Insti...
Ulrike Schneider Universität Wien Link Icon
Math. Statistics
Wed, 14. Jan at 10:00
Weierstrass-Insti...
Frank Konietschke Charité Link Icon
Random Systems
Wed, 14. Jan at 11:30
Weierstrass Lectu...
Marcel Ortgiese University of Bath Link Icon
Dynamic accessibility percolation
Abstract. Accessibility percolation is a simple model in evolutionary biology describing how a population driven by the evolutionary forces of selection and mutation explores a fitness landscape. Mathematically, the fitness landscape is modeled by attaching random weights to the vertices of a graph. Then, accessible percolation asks whether there are paths of increasing fitness of a certain length. I will review some of the progress in this area and then consider the question what happens if the fitness landscape changes over time. In particular, I will focus on the case when the underlying graph is a regular tree. Depending on the ratio of depth to width of the tree, we will see different scaling regimes for the time it takes to see an increasing path. Some of the proofs rely on adapting techniques from the area of noise sensitivity for Boolean functions.
Langenbach
Wed, 14. Jan at 14:15
WIAS, Erhard-Schm...
André Erhardt WIAS Link Icon
Group Theory
Wed, 14. Jan at 14:30
TU Berlin, MA Bui...
Matthew Konefal Loughborough, UK Link Icon
Probability
Wed, 14. Jan at 16:00
Marcel Ortgiese U Bath Link Icon
Discrete Math
Wed, 14. Jan at 16:30
EN 058
Mikhail Gorsky Jean Monnet University Link Icon
Stochastic Analysis
Thu, 15. Jan at 17:15
HU Berlin, Instit...
Francesca Primavera University of California Link Icon
Analysis
Fri, 16. Jan
Daan Janssen University of York Link Icon
Math. Physics
Tue, 20. Jan at 11:15
1.023 (BMS Room, ...
Burkhard Eden HU Berlin Link Icon
The off-shell one and two-loop box recovered from intersection theory
Abstract. We advertise intersection theory for generalised hypergeometric functions as a means of evaluating Mellin-Barnes representations. As an example, we study two-parameter representations of the off-shell one- and two-loop box graphs in exactly four-dimensional configuration space. Closing the integration contours for the MB parameters we transform these into double sums. Polygamma functions in the MB representation of the double box and the occurrence of higher poles are taken into account by parametric differentiation. Summing over any one of the counters results into a p+1F p that we replace by its Euler integral representation. The process can be repeated a second time and results in a two- or four-parameter Euler integral, respectively. We use intersection theory to derive Pfaffian systems of equations on related sets of master integrals and solve for the box and double box integrals reproducing the known expressions. Finally, we use a trick to re-derive the double box from a two-parameter Euler integral. This second computation requires only very little computing resources.
Numerical Analysis
Tue, 20. Jan at 13:15
Humboldt-Universi...
Falk Hante HU Berlin Link Icon
Stabilizing PDE Control: Optimization and Feedback in Moving Horizons
Math. Statistics
Wed, 21. Jan at 10:00
Weierstrass-Insti...
Ulrike Schneider Universität Wien Link Icon
Random Systems
Wed, 21. Jan at 11:30
Weierstrass Lectu...
Yannic Steenbeck TU Braunschweig Link Icon
Langenbach
Wed, 21. Jan at 14:15
WIAS, Erhard-Schm...
Olaf Klein WIAS Link Icon
Uncertainty quantification for a model for a magnetostrictive material involving a hysteresis operator
Group Theory
Wed, 21. Jan at 14:30
TU Berlin, MA Bui...
Jan Moritz Petschick Uni Bielefeld Link Icon
Optimization
Thu, 22. Jan at 15:15
Rudower Chaussee ...
Raphael Kuess HU Berlin Link Icon
Analysis
Fri, 23. Jan
Malte Leimbach MPI Bonn Link Icon
Analysis
Fri, 23. Jan
Janina Bernardy MPI Bonn Link Icon
Math. Physics
Tue, 27. Jan at 11:15
1.023 (BMS Room, ...
Maciej Dolega Institute of Mathematics, Polish Academy of Sciences Link Icon
Math. Statistics
Wed, 28. Jan at 10:00
Weierstrass-Insti...
Jakob Runge Universität Potsdam Link Icon
Langenbach
Wed, 28. Jan at 14:15
WIAS, Erhard-Schm...
Anastasija Pešić WIAS Link Icon
Curvature-driven pattern formation in biomembranes: A gradient flow approach
Probability
Wed, 28. Jan at 16:00
Rüdiger Frey WU Vienna Link Icon
Probability
Wed, 28. Jan at 16:00
Andrew Allen U Durham Link Icon
Stochastic Analysis
Thu, 29. Jan at 16:15
HU Berlin, Instit...
Xiaofei Sei University of Toronto Link Icon
Analysis
Thu, 29. Jan at 16:15
Claudio Dappiaggi University of Pavia Link Icon
Equivalence between local and global Hadamard States with Robin boundary conditions on half-Minkowski spacetime
Abstract. We construct the fundamental solutions and Hadamard states for a Klein-Gordon field in half-Minkowski spacetime with Robin boundary conditions in arbitrary dimensions using a generalisation of the Robin-to-Dirichlet map. On the one hand this allows us to prove the uniqueness and support properties of the Green operators. On the other hand, we obtain a local representation for the Hadamard parametrix that provides the correct local definition of Hadamard states, capturing `reflected' singularities from the spacetime timelike boundary. This allows us to prove the equivalence of our local Hadamard condition and the global Hadamard condition with a wave-front set described in terms of generalized broken bicharacteristics, obtaining a Radzikowski-like theorem in half-Minkowski spacetime. Joint work with B. Costeri, R. D. Singh and B. Juárez-Aubry -- ArXiv: 2509.26035 [math-ph].
Stochastic Analysis
Thu, 29. Jan at 17:15
HU Berlin, Instit...
Alessandro Bondi École Polytechnique Paris Link Icon
Analysis
Fri, 30. Jan
Beatrice Costeri University of Pavia Link Icon
MATH+ Friday
Fri, 30. Jan at 14:15
HU
Alexei Skorobogatov Imperial College London Link Icon
Math. Physics
Tue, 10. Feb at 11:15
1.023 (BMS Room, ...
Andrea Brini Sheffield University Link Icon
On the conifold gap for the local projective plane
Abstract. The conifold gap conjecture asserts that the polar part of the Gromov-Witten potential of a Calabi-Yau threefold near its conifold locus has a universal expression described by the logarithm of the Barnes G-function. In this talk I will describe a proof of the conifold gap conjecture for the local projective plane, whereby the higher genus conifold Gromov-Witten generating series of local P^2 are related to the thermodynamics of a certain statistical mechanical ensemble of repulsive particles on the positive half-line. As a corollary, this establishes the all-genus mirror principle for local P^2 through the direct integration of the BCOV holomorphic anomaly equations.
Math. Statistics
Wed, 11. Feb at 10:00
Weierstrass-Insti...
Ho Yun EPFL Link Icon
Linear Monge is All You Need
Abstract. In this talk, we explore the geometry of the Bures-Wasserstein space for potentially degenerate Gaussian measures on a separable Hilbert space, based on our recent work with Yoav Zemel. A key feature of our approach is its simplicity: relying only on elementary arguments from linear operator theory, we are able to derive explicit results without resorting to Kantorovich duality or Otto's Calculus. We provide a complete characterisation of both the Monge and Kantorovich problems in this context, regardless of the degeneracy of their measures. Furthermore, we show a simple way to construct all possible Wasserstein geodesics connecting two Gaussian measures. Finally, we generalise our results to characterise Wasserstein barycenters of Gaussian measures, borrowing the idea of Procrustes distance from statistical shape analysis.
Math. Statistics
Wed, 11. Feb at 10:00
Weierstrass-Insti...
Béatrice Matteo University of Geneva Link Icon
Kernel ridge regression for spherical responses
Abstract. The aim is to propose a novel nonlinear regression framework for responses taking values on a hypersphere. Rather than performing tangent space regression, where all the sphere responses are lifted to a single tangent space on which the regression is performed, we estimate conditional Fréchet means by minimizing squared distances on the nonlinear manifold. Yet, the tangent space serves as a linear predictor space where the regression function takes values. The framework integrates Riemannian geometry techniques with functional data analysis by modelling the regression function using methods from vector-valued reproducing kernel Hilbert space theory. This formulation enables the reduction of the infinite-dimensional estimation problem to a finite-dimensional one via a representer theorem and leads to an estimation algorithm by means of Riemannian gradient descent. Explicit checkable conditions on the data that ensure the existence and uniqueness of the minimizing estimator are given.
Random Systems
Wed, 11. Feb at 11:30
Weierstrass Lectu...
Elias Zimmermann Universität Leipzig Link Icon
Langenbach
Wed, 11. Feb at 14:15
WIAS, Erhard-Schm...
Andrea Poiatti Universität Wien Link Icon
Probability
Wed, 11. Feb at 16:00
Tony Lelievre CERMICS Link Icon
Probability
Wed, 11. Feb at 16:00
Vitalii Konarovskyi U Hamburg Link Icon
Stochastic Analysis
Thu, 12. Feb at 16:15
HU Berlin, Instit...
Guido Gazzani University of Verona Link Icon
Stochastic Analysis
Thu, 12. Feb at 17:15
HU Berlin, Instit...
Beatrice Ongarato Technische Universität Dresden Link Icon
Discrete Math
Sat, 14. Feb at 16:30
EN 058
Mikhail Gorsky Jean Monnet University Link Icon
Langenbach
Wed, 15. Apr at 14:15
WIAS, Erhard-Schm...
Pierluigi Colli Università Pavia, Italy Link Icon
Langenbach
Thu, 16. Apr at 14:15
WIAS, Erhard-Schm...
José Antonio Carrillo University of Oxford, United Kingdom Link Icon
Math. Physics
Tue, 21. Apr at 11:15
1.023 (BMS Room, ...
Pierrick Bousseau Oxford University Link Icon
Math. Physics
Tue, 05. May at 11:15
1.023 (BMS Room, ...
Damien Simon Sorbonne Universite Link Icon
Math. Physics
Tue, 14. Jul at 11:15
1.023 (BMS Room, ...
Alexander Alexandrov IBS Pohang Link Icon
Discrete Math
Thu, 17. Dec at 16:30
EN 058
Lars Kastner TU Berlin Link Icon
Drawing algebraic curves in OSCAR
Abstract. I will talk about how to visualize real plane algebraic curves given as the zero set of a polynomial in two variables using Oscar.jl. I will highlight performance and exactness issues using real world examples.