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Math. Physics
Tue, 22. Apr at 11:15
1.023 (BMS Room, ...
Vincent Bouchard University of Alberta Link Icon
W-constraints for the ancestor potential of (r,s)-theta classes
Abstract. Witten’s conjecture, which was proved by Kontsevich, states that the generating series for intersection numbers on the moduli space of curves is a tau-function for the KdV integrable hierarchy. It can be reformulated as the statement that the ancestor potential of the trivial cohomological field theory is the unique solution to a system of differential constraints that form a representation of the Virasoro algebra. In this talk I will present a new generalization of this celebrated result. The object of study becomes the ancestor potential of an interesting set of cohomology classes on the moduli space of curves, called (r,s) theta classes, which form a non-semisimple cohomological field theory. (Here, r is a positive integer and s is a positive integer between 1 and r-1.) The (r,s) theta classes are constructed as the top Chern classes of the Chiodo classes, and can be understood as a higher generalization of the Norbury classes. We show that the ancestor potential is the solution of a system of differential constraints that form a representation of a W-algebra. However, the differential constraints form an Airy structure (and thus uniquely fix the ancestor potential) only in the cases s=1 and s=r-1. An equivalent way of stating this result is that we determine loop equations satisfied by the correlators for all (r,s), but only when s=1 or s=r-1 are the loop equations uniquely solved by (shifted) topological recursion. This talk is based on work in progress with N. K. Chidambaram, A. Giacchetto and S. Shadrin and previous work by many people such as https://arxiv.org/abs/2412.09120, https://arxiv.org/abs/2408.02608, https://arxiv.org/abs/2205.15621, https://arxiv.org/abs/1812.08738, to name a few.
Numerical Analysis
Tue, 22. Apr at 13:00
2.417
Lina Zhao City University of Hong Kong Link Icon
A novel multipoint stress control volume method for linear elasticity on quadrilateral grids
MATH+ Spotlight
Wed, 23. Apr at 11:30
online
Ye-Chao Liu Link Icon
Entanglement Detection via Frank-Wolfe Algorithms
Abstract
IOL Seminar
Wed, 23. Apr at 13:00
ZIB, Room 2006 (S...
Yusuke Kimura FUJITSU Link Icon
Multi-node quantum circuit simulation with decision diagram in HPC
Abstract. Decision diagram is a data structure that has been used for a long time to represent logic functions. Recently, the development of quantum computers has become very active, and decision diagrams are used in quantum circuit simulation because it can represent quantum states (complex vectors) and quantum gates (complex unitary matrices) with less memory. In this presentation, I will explain a method for large-scale parallelization of quantum circuit simulations using decision diagrams in an HPC (High-Performance Computing) environment. I will also discuss the difference between quantum circuits that can be simulated quickly with decision diagrams and those that are slow, and discuss suitable applications.
Langenbach
Wed, 23. Apr at 15:15
rooms 405/406
Piotr Wozniak FUB Link Icon
On stochastic homogenisation of integral functionals and differential operators
Abstract
Probability
Wed, 23. Apr at 16:00
Alexandre Pannier LPSM/U Paris Cité Link Icon
Combinatorics
Wed, 23. Apr at 16:15
Arnimallee 3
Silas Rathke FU Berlin Link Icon
Extra-tight Euler trails in hypergraphs
Abstract. An extra-tight trail in a hypergraph is like a normal tight trail in a hypergraph, but where you also consider the edges that "skip" exactly one vertex of the trail. We will consider the question which hypergraphs contain extra-tight Euler trails. We will show that large graphs with high minimum degree always have an extra-tight Euler trail if certain "trivial" degree divisibility constraints are satisfied. The proof uses the technique of absorption. Joint work with Stefan Glock, Olaf Parczyk, and Tibor SzabĂł
Discrete Math
Wed, 23. Apr at 16:30
EN 058
Danai Deligeorgaki KTH Link Icon
Colored multiset Eulerian polynomials
Abstract. The central objects in this talk are the descent polynomials of colored permutations on multisets, referred to as colored multiset Eulerian polynomials. These polynomials generalize the colored Eulerian polynomials that appear frequently in algebraic combinatorics and are known to admit desirable distributional properties, including real-rootedness, log-concavity, unimodality and the alternatingly increasing property. In joint work with Bin Han and Liam Solus, symmetric colored multiset Eulerian polynomials are identified and used to prove sufficient conditions for a colored multiset Eulerian polynomial to satisfy the self-interlacing property. This property implies that the polynomial obtains all of the aforementioned distributional properties as well as others, including bi-gamma-positivity. To derive these results, multivariate generalizations of a generating function identity due to MacMahon are deduced. The results are applied to a pair of questions, both previously studied in several special cases, that are seen to admit more general answers when framed in the context of colored multiset Eulerian polynomials. The first question pertains to s-Eulerian polynomials, and the second to interpretations of gamma-coefficients. We will see some of these results in detail, depending on the pace of the talk. We may also discuss some connections between multiset permutations and polytopes from algebraic statistics.
Villa Seminar
Thu, 24. Apr at 13:30
FUB Villa
Mara GruĂź Link Icon
Faster computations of Ehrhart, statistics of zonotopes in Sagemath
Optimization
Thu, 24. Apr at 15:15
Rudower Chaussee ...
Robert Luce Gurobi Optimization Link Icon
Solving Nonlinear Problems to Global Optimality
Abstract. In this talk, we provide an overview of Gurobi's algorithmic components for solving nonlinear optimization problems to global optimality. In essence, we extend our existing mixed-integer programming (MIP) framework to handle such problems. This includes our presolve algorithms, an extension of the branch-and-bound method utilizing spatial relaxations, and an interior point algorithm for nonlinear problems, which serves as a primal heuristic to find high-quality solutions. As a result, we can compute solutions to nonlinear optimization problems along with certificates for global optimality. Finally, we have extended gurobipy to facilitate the easy formulation of expression-based nonlinear optimization problems in Python. Gurobi's nonlinear solver applies to explicit expression-based constraints and does not require the supply of derivative data.
What is...?
Fri, 25. Apr at 13:00
TU Berlin, StraĂźe...
Sven Tornquist FU Berlin Link Icon
What is What is...the calculus of variations?
Abstract. This talk offers a brief introduction to the calculus of variations, focusing on the core ideas behind variational problems and their role in describing systems governed by energy principles. We will explore how such methods arise in the modeling of grain boundaries in polycrystalline materials. The talk also includes a short overview of the concept of Γ-convergence, an important tool for studying the asymptotic behavior of variational problems.
MATH+ Friday
Fri, 25. Apr at 14:15
TU (C 130)
Adriana Garroni Sapienza U Rome Link Icon
Emergence of defects at grain boundaries: Variational analysis (Kovalevskaya Lecture)
Math. Physics
Tue, 29. Apr at 11:15
1.023 (BMS Room, ...
Thomas Creutzig Erlangen Universität Link Icon
Verlinde's formula in logarithmic conformal field theory
Abstract. Verlinde's formula for rational two-dimensional conformal field theory says that the fusion rules can be computed from the modular transformations of characters. Thanks to Yi-Zhi Huang this is a theorem for rational vertex operator algebras. I will give a historical introduction to the subject and then introduce a setting in which this statement also holds for logarithmic conformal field theories.
Numerical Analysis
Tue, 29. Apr at 13:00
2.417
Georgi Mitzov HU Berlin Link Icon
Math. Statistics
Wed, 30. Apr at 10:00
HVP 11 a, R.313
Sebastian Kassing TU Berlin Link Icon
Numerical Analysis
Wed, 30. Apr at 13:00
2.417
Philipp Bringmann TU Wien Link Icon
Langenbach
Wed, 30. Apr at 15:15
Library, room 411
Rossella Giorgio TU Wien Link Icon
Nonlocal analysis of energies in micromagnetics
Abstract
Langenbach
Wed, 30. Apr at 15:45
Rudower Chaussee ...
Anastasia Giorgi University of Calgary Link Icon
Discrete Math
Wed, 30. Apr at 16:30
EN 058
Kevin KĂĽhn Goethe University Frankfurt Link Icon
Forschung verstehen
Wed, 30. Apr at 18:00
FU Berlin,  Insti...
Holger Stephan WIAS Link Icon
 Was sind Zahlen? Intuition oder Axiomatik in der Mathematik
Abstract.  Obwohl die Zahlen seit Jahrtausenden nicht nur von Mathematikern richtig verwendet werden, wurden sie erst vor 150 Jahren axiomatisch begründet. Warum hat das so lange gedauert? Weil die Zahlen zwar intuitiv richtig verwendet werden, man aber nicht wusste (und eigentlich noch immer nicht weiß), warum. Warum ist es sinnvoll, die Summe 20 + 30 zu bilden, wenn diese Zahlen Anzahlen von Personen beschreiben, aber nicht, wenn es sich um Temperaturen handelt? Liegt die Anwendung der Zahlen (und überhaupt mathematischer Objekte) außerhalb der Mathematik? Will man Zahlen anwenden, muss man die bei der Axiomatisierung vorgenommene Identifizierung von Ordinal- und Kardinalzahlen rückgängig machen. Das teilt einige Objekte der angewandten Mathematik in zwei duale Welten. In der einen finden sich Ordinalzahlen, intensive physikalische Größen und stetige Funktionen wieder. In der anderen liegen Kardinalzahlen, extensive physikalische Größen und Radonmaße. Die Verwechslung dieser beiden Welten sollte vermieden werden, wenn man möchte, dass entwickelte mathematische Modelle die physische Realität möglichst gut widerspiegeln.
MATH+ Spotlight
Wed, 07. May at 11:30
online
Zachary Adams Link Icon
A New Approach to Metastability in Multi-Agent Systems
Abstract
Algebraic Geometry
Wed, 07. May at 13:15
Room: 3.007 John ...
Robert Auffarth Universidad de Chile Link Icon
Langenbach
Wed, 07. May at 15:15
rooms 405/406, WI...
Edriss Titi University of Cambridge, Texas A&M University and Weizmann Institute of Science Link Icon
On a generalization of the Bardos-Tartar conjecture to nonlinear dissipative PDEs
Abstract
Langenbach
Wed, 07. May at 15:15
WIAS, Erhard-Schm...
Rossella Giorgio TU Wien Link Icon
Probability
Wed, 07. May at 16:00
Jonas Sauer FSU Jena Link Icon
Probability
Wed, 07. May at 16:00
Michela Ottobre Heriot Watt University Link Icon
Math. Physics
Mon, 12. May at 14:00
1.023 (BMS Room, ...
Leonid Chekhov Michigan State University Link Icon
Symplectic groupoid and cluster algebras
Abstract. The symplectic groupoid is a set of pairs (B,A) with A unipotent upper-triangular matrices and B in GLn being such that the matrix A~ = BABT is itself unipotent upper triangular. It turned out recently that the problem of description of such pairs can be explicitly solved in terms of Fock--Goncharov--Shen cluster variables; moreover, for B satisfying the standard semiclassical Lie--Poisson algebra, the matrices B, A, and A~ satisfy the closed Poisson algebra relations expressible in the r-matrix form. Since works of J.Nelson, T.Regge and B.Dubrovin, it was known that entries of A can be identified with geodesic functions on Riemann surfaces with holes. In our approach, we are able to construct a complete set of geodesic functions for a closed Riemann surface. We have a complete description for genus two; I'm also about to discuss moduli spaces of higher genera. Based on my joint papers with MIsha Shapiro and our students.
Numerical Analysis
Tue, 13. May at 13:00
2.417
Tim Stiebert HU Berlin Link Icon
Math. Statistics
Wed, 14. May at 10:00
HVP 11 a, R.313
Vladimir Spokoiny WIAS/HU Berlin Link Icon
Estimation and classification for DNN: Bless of dimension
Algebraic Geometry
Wed, 14. May at 13:15
Room: 3.007 John ...
Jenia Tevelev University of Massachusetts Amherst Link Icon
Langenbach
Wed, 14. May at 14:00
rooms 405/406
Pierluigi Colli UniversitĂ  Pavia, Italy Link Icon
Solvability and optimal control in spatially structured epidemic models
Abstract
Langenbach
Wed, 14. May at 15:30
rooms 405/406
Andrea Signori Politecnico di Milano, Italy Link Icon
Mathematical models of active phase separation and droplet dynamics
Abstract
Stochastic Analysis
Thu, 15. May at 16:15
TU Berlin, Instit...
Paul Eisenberg Wirtschaftsuniversität Wien Link Icon
Stochastic Analysis
Thu, 15. May at 17:15
TU Berlin, Instit...
Thorsten Schmidt Universität Freiburg Link Icon
Math. Physics
Fri, 16. May at 09:00
1.023 (BMS Room, ...
Paolo Rossi Padova Link Icon
Moduli spaces of curves and the classification of integrable systems
Abstract. I will present several results and conjectures on the classification of different classes of integrable systems of evolutionary PDEs, up to the appropriate transformation groups. These include Hamiltonian systems, tau symmetric systems and systems of conservation laws. I will then explain in what sense we expect that integrable systems arising from intersection theory on the moduli space of stable curves are universal objects with respect to these classifications. In the rank one case I will present strong evidence in support of these claims. This is joint work with A. Buryak.
Math. Physics
Fri, 16. May at 10:00
1.023 (BMS Room, ...
Danilo Lewanski Trieste Link Icon
On the DR/DZ equivalence
Abstract. There are two main recipes to associate to a Cohomological Field Theory (CohFT) an integrable hierarchy of hamiltonian PDEs: the first one was introduced by Dubrovin and Zhang (DZ, 2001), the second by Buryak (DR, 2015). It is interesting to notice that the latter relies on the geometric properties of the Double Ramification cycle — hence the name DR — to work. As soon as the second recipe was introduced, it was conjectured that the two had to be equivalent in some sense, and it was checked in a few examples. In the forthcoming years several papers by Buryak, Dubrovin, Guerè, Rossi and others followed, checking more examples of CohFTs, making the conjecture more precise, proving the conjecture in low genera, and eventually turning the statement of the conjecture in a purely intersection theoretic statement on the moduli spaces of stable curves. Lately, the conjecture was proved in its intersection theoretic form, employing virtual localisation techniques. (j.w.w. Blot, Rossi, Shadrin).
Math. Physics
Fri, 16. May at 11:30
1.023 (BMS Room, ...
Reinier Kramer Milano Bicocca Link Icon
Leaky Hurwitz numbers and topological recursion
Abstract. Leaky Hurwitz numbers were introduced by Cavalieri-Markwig-Ranganathan by extending the branching morphism from the logarithmic double ramification cycle to its pluricanonical counterpart. These numbers also have a natural interpretation in terms of tropical geometry and yield (non-hypergeometric) KP tau functions. I will explain how to think about these numbers, and how we can extend the recent works of Alexandrov-Bychkov-Dunin-Barkowski-Kazarian-Shadrin to prove (at least blobbed) topological recursion. Along the way, I will interpret the cut-and-join operator as a hamiltonian whose flow generates the spectral curve. This is joint work in progress with M. A. Hahn.
MATH+ Spotlight
Wed, 21. May at 11:30
online
Franziska Eberle MATH+ Junior Research Group Leader Link Icon
Demand Strip Packing
Langenbach
Wed, 21. May at 15:15
WIAS, Erhard-Schm...
Olaf Klein WIAS Link Icon
Uncertainty quantification for a model for a magnetostrictive material involving a hysteresis operator
Probability
Wed, 21. May at 16:00
Adrian Röllin NU Singapore Link Icon
Probability
Wed, 21. May at 16:00
Aleks Mijatovic U of Warwick Link Icon
Stochastic Analysis
Thu, 22. May at 17:15
TU Berlin, Instit...
Johannes Wiesel Carnegie Mellon University Link Icon
MATH+ Friday
Fri, 23. May at 14:15
TU (C 130)
Artur Avila U ZĂĽrich Link Icon
Langenbach
Wed, 28. May at 15:15
WIAS, Erhard-Schm...
Moritz Gau WIAS Link Icon
Differential Geometry
Wed, 28. May at 16:30
Rudower Chaussee ...
Sebastian Boldt TU Chemnitz Link Icon
A lower bound on the normal radius of hypersurfaces with applications to bounded geometries with boundary
Abstract
MATH+ Spotlight
Wed, 04. Jun at 11:30
online
Moritz Grillo Link Icon
On the Expressivity of Neural Networks
Abstract
Langenbach
Wed, 04. Jun at 15:15
WIAS, Erhard-Schm...
Theresa Simon Universität Münster Link Icon
Stochastic Analysis
Thu, 05. Jun at 16:15
TU Berlin, Instit...
Julian Sester National University Singapore Link Icon
Langenbach
Wed, 11. Jun at 15:15
WIAS, Erhard-Schm...
Martin Brokate WIAS and TU MĂĽnchen Link Icon
Discrete Math
Wed, 11. Jun at 16:30
EN 058
Tobias Boege University of Tromsø Link Icon
Entropy profiles and algebraic matroids
Abstract. Consider the uniform probability distribution on the solution set of a polynomial system with coefficients in a finite field k. When K ranges over the finite extensions of k, this defines a sequence of distributions and we are interested in their Shannon entropy profiles. Using results from the model theory of finite fields, we identify all convergent subsequences and compute their limits. The computability part relies on a difficult symbolic algorithm known as Galois stratification. In the special case that the polynomials define a k-irreducible algebraic variety, one of these limits turns out to be its algebraic matroid, which recovers a result previously obtained by F. Matúš.
MATH+ Spotlight
Wed, 18. Jun at 11:30
online
Ségolène Martin Link Icon
Convolutional Brenier Generative Networks
Abstract
IOL Seminar
Wed, 18. Jun at 13:00
ZIB, Room 2006 (S...
Christophe Roux ZIB Link Icon
Bounding geometric penalties in Riemannian optimization
Abstract. Riemannian optimization refers to the optimization of functions defined over Riemannian manifolds. Such problems arise when the constraints of Euclidean optimization problems can be viewed as Riemannian manifolds, such as the symmetric positive-definite cone, the sphere, or the set of orthogonal linear layers for a neural network. This Riemannian formulation enables us to leverage the geometric structure of such problems by viewing them as unconstrained problems on a manifold. The convergence rates of Riemannian optimization algorithms often rely on geometric quantities depending on the sectional curvature and the distance between iterates and an optimizer. Numerous previous works bound the latter only by assumption, resulting in incomplete analysis and unquantified rates. In this talk, I will discuss how to remove this limitation for multiple algorithms and as a result quantify their rates of convergence.
Probability
Wed, 18. Jun at 16:00
Jonas Tölle Alto University Link Icon
Probability
Wed, 18. Jun at 16:00
Chencheng Ling U of Augsburg Link Icon
Optimization
Thu, 19. Jun at 15:15
Rudower Chaussee ...
Rowan Turner University of Edinburgh Link Icon
Algebraic Geometry
Wed, 25. Jun at 13:15
Room: 3.007 John ...
Shigeru Mukai Kyoto Link Icon
Langenbach
Wed, 25. Jun at 15:15
WIAS, Erhard-Schm...
Tomáš Roubíček Charles University Prague and Inst. of Thermomechanics, Czech Acad. Sci. Link Icon
MATH+ Friday
Fri, 27. Jun at 14:15
Urania
Mukai Shigeru Kyoto U Link Icon
MATH+ Spotlight
Wed, 02. Jul at 11:30
online
Sebastian Zimper Link Icon
Informing Opinion Dynamics Models with Online Social Network Data
Abstract
Langenbach
Wed, 02. Jul at 15:15
WIAS, Erhard-Schm...
Benjamin Gess TU Berlin and MPI Leipzig Link Icon
Probability
Wed, 02. Jul at 16:00
Fabio Toninelli TU Vienna Link Icon
Probability
Wed, 02. Jul at 16:00
Mathieu Laurière NYU Shanghai Link Icon
Optimization
Thu, 03. Jul at 15:15
Rudower Chaussee ...
Oliver Sander Technische Universität Dresden Link Icon
Stochastic Analysis
Thu, 03. Jul at 16:15
TU Berlin, Instit...
Mathieu Lauriere NYU Shanghai Link Icon
Stochastic Analysis
Thu, 03. Jul at 16:15
TU Berlin, Instit...
Sören Christensen Christian-Albrechts-Universität zu Kiel Link Icon
MATH+ Friday
Fri, 04. Jul at 14:15
TU (C 130)
Silvia De Toffoli IUSS Pavia Link Icon
Kovalevskaya Lecture
Monday Lecture
Sun, 06. Jul at 15:30
Rudower Chaussee ...
Anusha Krishnan U MĂĽnster Link Icon
Positive sectional curvature and Ricci flow
Abstract
Langenbach
Wed, 09. Jul at 15:15
WIAS, Erhard-Schm...
Amru Hussein Universität Kassel Link Icon
The three limits of the hydrostatic approximation
Abstract
MATH+ Spotlight
Wed, 16. Jul at 11:30
online
Mikhail Kirilin Link Icon
Data-Adaptive Discretization of Inverse Problems
Abstract
Langenbach
Wed, 16. Jul at 15:15
WIAS, Erhard-Schm...
Alice Marveggio Hausdorff Center for Mathematics Universität Bonn Link Icon