Vorträge

Stochastik mit Finanzmathematik

Vorträge des Schwerpunkts Stochastik

Studierende und Gäste sind herzlich eingeladen!

Auf dieser Seite finden Sie Informationen über Vorträge folgender Seminare:

  • Rhein-Main Kolloquium Stochastik (Gemeinsames Kolloquium der Arbeitsgruppen Stochastik TU Darmstadt / Gutenberg-Universität Mainz / Goethe-Universität Frankfurt)
  • Stochastisches Kolloquium (Forschungsseminar des Schwerpunkts Stochastik)
  • Oberseminar Stochastik (Forschungsseminar für Doktoranden und Masterstudenten)
  • Verweis auf weitere interessante Vorträge (außerhalb des Frankfurter Schwerpunkts Stochastik)

Vorträge in chronologischer Rheinfolge:

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Vorträge finden aufgrund der aktuellen Situation teilweise online statt

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Oberseminar Stochastik:

Mittwoch, 29. Juni 2022, in Präsenz, Raum 711 groß

14:15 Uhr: Ankündigung: Philipp Klein, Doktorand aus Magdeburg


Oberseminar Stochastik:

Mittwoch, 04. Mai 2022, in Präsenz, Raum 711 groß

14:15 Uhr:Masterarbeit von Marina Sturm:

Nichtparametrische Statistik zur Detektion von Richtungswechseln in Organellenbewegungen


Oberseminar Stochastik:

Mittwoch, 09. Februar 2022, via Zoom

14:15 Uhr: Solveig Plomer zum aktuellen Stand ihres Promotionsprojekts:

Detecting changes in movement direction and speed in cell organelles


Oberseminar Stochastik:

Mittwoch, 15. Dezember 2021, via Zoom

https://uni-frankfurt.zoom.us/j/97187235503?pwd=Njg5bTUxZlhQdmNJMHd0MUtxOFVHdz09

14:15 Uhr:  Masterarbeit von Herrn Robin Masic:

Methoden der Richtungsstatistik mit Anwendung auf Plastid-Bewegungen

Berufspraxiskolloquium:

Das Kolloquium richtet sich speziell an Studierende und soll Einblicke in spätere Berufsfelder geben. Es ist eine Kombination aus einer Firmenvorstellung und einem Vortrag über die Anwendung mathematischer Methoden in der Berufspraxis.

Am 9.12. (Do) um 18:15 (!) findet das nächste Berufspraxiskolloquium per Zoom statt, zu dem alle Interessierten herzlich eingeladen sind.

Referenten: Christian Braun und Nadine Mbenda (PricewaterhouseCoopers | Risk & Regulation)

Titel: Quantitatives Kreditrisikomanagement: Einführung und aktuelle Herausforderungen

Zusammenfassung: Das Credit Risk Quant-Team von PwC Deutschland wird die Dimensionen des Kreditrisikos, wesentliche Risikomodelle, die Ermittlung der Risikovorsorge unter IFRS 9 und die aktuellen Herausforderungen bei der Kreditrisikomodellierung vorstellen.

Herr Prof. Dr. Christoph Kühn lädt Sie zu diesem Zoom-Meeting ein.

Thema: Berufspraxiskolloquium
Uhrzeit: 9.Dez..2021 06:00 PM Amsterdam, Berlin, Rom, Stockholm, Wien

Zoom-Meeting beitreten
https://uni-frankfurt.zoom.us/j/95253176690?pwd=RmVoZ1RRWEhhU3hGQ3hocGdVT3VXUT09

Meeting-ID: 952 5317 6690
Kenncode: 772102


Rhein-Main-Kolloquium Stochastik:

Freitag, 03.12.2021 - via Zoom.

https://uni-frankfurt.zoom.us/j/93449699353?pwd=Wm5GNE90Qk90K0o0cjIxb3AvanFIUT09

Meeting ID: 934 4969 9353
Passcode: 828632

15:15-16:15: Nina Gantert (TU München)

16:15-16:45: (virtual) coffee break

16:45-17:45: Paolo Dai Pra (Università degli Studi di Verona)

Nina Gantert (TU München)

Sharp concentration for the largest and smallest fragment in a k-regular self-similar fragmentation

Abstract: We study the asymptotics of the k-regular self-similar fragmentation process. For α>0 and an integer k≥2, this is the Markov process (I_t)_{t≥0} in which each It is a union of open subsets of [0,1), and independently each subinterval of It of size u breaks into k equally sized pieces at rate u^α. Let k^{−mt} and k^{−Mt} be the respective sizes of the largest and smallest fragments in I_t. By relating (I_t)_{t≥0} to a branching random walk, we find that there exist explicit deterministic functions g(t) and h(t) such that |mt−g(t)|≤1 and |Mt−h(t)|≤1 for all sufficiently large t. Furthermore, for each n, we study the final time at which fragments of size k^{-n} exist. In particular, by relating our branching random walk to a certain point process, we show that, after suitable rescaling, the laws of these times converge to a Gumbel distribution as n→∞.

Based on joint work with Piotr Dyszewski, Samuel G. G. Johnston, Joscha Prochno and Dominik Schmid

Paolo Dai Pra (Università degli Studi di Verona)

Self-sustained oscillations in interacting systems: an overview and some recent advances

Abstract: Self organized collective periodic behavior is seen to emerge in several different contexts: from neuroscience to tectonic plates movements, from population dynamics to epidemiology. A large variety of stochastic models have been proposed to capture this phenomenon at a mathematical level, showing that it may be induced by a combination of factors including noise, dissipation, loss of Markovianity and/or of time reversibility. Most of the present literature concerns mean-field models, where the thermodynamic limit is well understood at a dynamical level, and the emergence of oscillations can be seen from the macroscopic evolution equations. In models with short range interaction it is much harder to understand how self organization at microscopic level may produce large scale rhythms. Some partial results have been obtained for a non-reversible modification of the nearest neighbour Ising model.


Berufspraxiskolloquium:

Das Kolloquium richtet sich speziell an Studierende und soll Einblicke in spätere Berufsfelder geben. Es ist eine Kombination aus einer Firmenvorstellung und einem Vortrag über die Anwendung mathematischer Methoden in der Berufspraxis.

Donnerstag den 28.10.2021 um 16:15 via Zoom

Dr. Klaus Rinne (Ernst & Young, FAAS Quant Team)

Titel: Valuation of interest rate options under negative rates
Table of Content: - Introduction to the concept of volatility - Interest rate cap & floor - Working as a quant at EY

Zoom-Meeting beitreten
https://uni-frankfurt.zoom.us/j/95253176690?pwd=RmVoZ1RRWEhhU3hGQ3hocGdVT3VXUT09

Meeting-ID: 952 5317 6690
Kenncode: 772102


Oberseminar Stochastik:

Dienstag, 27. Juli 2021, via ZOOM

https://uni-frankfurt.zoom.us/j/96877275138?pwd=azBCSGNKZTd4elBnT0lKNjhlWHVMUT09

Meeting-ID: 968 7727 5138
Kenncode: 322615

10:00 Uhr: Master-Abschlussvortrag von Niyat Isayas

Rekonstruktionsprobleme an rein zufälligen rekursiven Bäumen


Oberseminar Stochastik:

Mittwoch, 30. Juni 2021, via ZOOM

Zugangsdaten bitte über Apl. Prof. Dr. Gaby Schneider anfragen.

14:15 Uhr: Master-Abschlussvortrag Fabian Schneider

Ein multivariater Ansatz zur Analyse der Fütteraktivität von Bienen


MathFinanceColloquium/ Berufspraxiskolloquium:

Dienstag, 29.06.2021, 14:15 Uhr via ZOOM

Zugangsdaten bitte über Prof. Dr. Christoph Kühn anfragen.

Referenten:
Kasra Khani (Consultant, d-fine)
Dr. Hans-Peter Wächter (Partner, d-fine)

Titel:
The Endgame of Libor – Einstieg als Finanzmathematiker in einer Zeit voller Veränderungen

Beschreibung:
d-fine ist mit mehr als 1000 Mitarbeiterinnen und Mitarbeitern eines der führenden Beratungsunternehmen für quantitativ und technologisch anspruchsvolle Projekte. Nach einer Vorstellung der Firma möchten wir Ihnen gerne die Benchmark Reform im Rahmen von USA Studentenkrediten vorstellen. Unser Vortrag thematisiert hierbei insbesondere den Projektalltag und die besonderen Erfahrungen als Einsteiger in Zeiten der Pandemie.

Alle (theoretisch oder praktisch) Interessierten sind herzlich eingeladen!


Rhein-Main-Kolloquium Stochastik:

Freitag, 11.06.2021: ONLINE-Veranstaltung

Zoom access to the talks:

https://uni-frankfurt.zoom.us/j/94648348387?pwd=anVJNnJKY2NZTVBGZWR4UXdGRHpOUT09

Meeting ID: 946 4834 8387

Passcode: 969450

15:15-16:15: Gaultier Lambert (Zürich)

16:15-16:45: virtual coffee break

16:45-17:45: Christian Brennecke (Harvard)

Gaultier Lambert

Title: Normal approximation for traces of random unitary matrices

This talk aim to report on the fluctuations of traces of powers of a random n by n matrix U distributed according to the Haar measure on the unitary group. This classical random matrix problem has been extensively studied using several different methods such as asymptotics of Toeplitz determinants, representation theory, loop equations etc. It turns out that for any k≥1, Tr[U^k] converges as n tends to infinity to a Gaussian random variable with a super exponential rate of convergence. In this talk, I will explain some of these results and present some recent work with Kurt Johansson (KTH) in which we revisited this problem in a multivariate setting.

Christian Brennecke

Title: On the TAP equations for the Sherrington-Kirkpatrick Model

In this talk, I will review the Thouless-Anderson-Palmer (TAP) equations for the classical Sherrington-Kirkpatrick spin glass and present a dynamical derivation, valid at sufficiently high temperature. In our derivation, the TAP equations follow as a simple consequence of the decay of the two point correlation functions. The methods can also be used to establish decay of higher order correlation functions. We illustrate this by proving a suitable decay bound on the three point functions which implies an analogue of the TAP equations for the two point functions. The talk is based on joint work with A. Adhikari, P. von Soosten and H.T. Yau.


Stochastisches Kolloquium:

Freitag, 28. Mai 2021 via ZOOM

https://uni-frankfurt.zoom.us/j/95773112662?pwd=NVZFSG1tdytoQlpFSEtHUkxqTzBsQT09

Meeting-ID: 957 7311 2662

Kenncode: 548086

15:15 Uhr: Vortrag von Dr. Jon Warren Department of Statistics, University of Warwick

A family of local times studied as a Markov process

Abstract

Oberseminar Stochastik:

Mittwoch, 05. Mai 2021, via ZOOM

https://uni-frankfurt.zoom.us/j/94756581976?pwd=ejZFQjdhRG5GaEdMaDdvM3p3aUY3UT09

Meeting ID: 947 5658 1976
Passcode: 223308

14:30 Uhr: Master-Abschlussvortrag Insea Schlattmeier

Überleben und Wachstum von Parasitenpopulationen in räumlich strukturierten Wirtspopulationen


Oberseminar Stochastik:

Mittwoch, 24. März 2021, via ZOOM

Zugangsdaten bitte über Prof. Dr. Wakolbinger anfragen

14:30 Uhr: Master-Abschlussvortrag Jan Lukas Igelbrink

Langreichweitige Seedbank-Koaleszenten und fraktionale Brownbewegungen


Rhein-Main-Kolloquium Stochastik:

Freitag, 29.01.2021: ONLINE-Veranstaltung

Zoom access to the talks:
https://uni-frankfurt.zoom.us/j/91292915620?pwd=QkR5THI0MklWWDR1ajBoUytFOXBwUT09

Meeting-ID: 912 9291 5620
Code: 109618

15:15-16:15: Gabor Lugosi (Pompeu Fabra University, Barcelona)

16:15-16:45: virtual coffee break

16:45-17:45: Po-Ling Loh (University of Cambridge)

Gábor Lugosi

Title: Root finding and broadcasting in random recursive trees

Abstract: Uniform and preferential attachment trees are among the simplest examples of dynamically growing networks. The statistical problems we address in this talk regard discovering the past of the tree when a present-day snapshot is observed. We present a few results that show that, even in gigantic networks, a lot of information is preserved from the very early days. In particular, we discuss the problem of finding the root and the broadcasting problem.


Po-Ling Loh

Title: Statistical inference for infectious disease modeling

Abstract: We discuss two recent results concerning disease modeling on networks. The infection is assumed to spread via contagion (e.g., transmission over the edges of an underlying network). In the first scenario, we observe the infection status of individuals at a particular time instance and the goal is to identify a confidence set of nodes that contain the source of the infection with high probability. We show that when the underlying graph is a tree with certain regularity properties and the structure of the graph is known, confidence sets may be constructed with cardinality independent of the size of the infection set. Furthermore, we prove that the confidence sets are almost surely persistent, i.e., they settle down after a finite number of time steps. In the second scenario, the goal is to infer the network structure of the underlying graph based on knowledge of the infected individuals. We develop a hypothesis test based on permutation testing, and describe a sufficient condition for the validity of the hypothesis test based on automorphism groups of the graphs involved in the hypothesis test.

This is joint work with Justin Khim and Varun Jog.


Oberseminar Stochastik:

Mittwoch, 16. Dezember 2020, VidyoConnect

Zugangsdaten bitte über Prof. Dr. Neininger anfragen

14:15 Uhr: Master-Abschlussvortrag Ân Hòang

Zur Struktur zufälliger Permutationen, GEM- und Poisson-Dirichlet-Verteilungen


Oberseminar Stochastik:

Mittwoch, 14. Oktober 2020

14:15 Uhr: Master-Abschlussvortrag Denis Spiegel

Convergence Rates in Distributional Reinforcement Learning


Rhein-Main-Kolloquium Stochastik:

Freitag, 29.05.2020: Campus Bockenheim, Robert-Mayer-Straße 10, Raum 711 groß, 7. OG

15.15 Uhr Giada Basile (Universität Rom): Titel tba

16.15-16.45 Uhr Kaffeepause

16.15 Uhr (tba)


Stochastisches Kolloquium:

Mittwoch, 22. Januar 2020, 14:15 Uhr in Raum 711 gr

14:00 Uhr: Vortrag von Dr. Charline Smadi, Universität Grenoble

Crossing a fitness valley as a metastable transition in a stochastic population model
We consider a stochastic model of population dynamics where each individual is characterised by a trait in {0,1,...,L} and has a natural reproduction rate, a logistic death rate due to age or competition, and a probability of mutation towards neighbouring traits at each reproduction event. We choose parameters such that the induced fitness landscape exhibits a valley: mutant individuals with negative fitness have to be created in order for the population to reach a trait with positive fitness. We focus on the limit of large population and rare mutations at several speeds. In particular, when the mutation rate is low enough, metastability occurs: the exit time of the valley is an  exponentially distributed random variable.

This is a joint work with Anton Bovier and Loren Coquille


Stochastisches Kolloquium:

Mittwoch, 18. Dezember 2019, 14:15 Uhr in Raum 711 gr

14:00 Uhr: Vortrag von Maurice Georgi

Stochastische Modellierung von segmentweisen linearen Plastidbewegungen


Rhein-Main-Kolloquium Stochastik:

Freitag, 06.12.2019: Campus Bockenheim, Robert-Mayer-Straße 10, Raum 711 groß, 7. OG

15.15 Uhr Simone Warzel (TU München): Quantum spin glasses: a mathematical challenge

The theory of classical mean-field spin glasses is a well-established and celebrated field within probability theory. The addition of a constant perpendicular magnetic field introduces a non-commuting term into the energy of such spin glasses and hence causes quantum effects. The main aim of this talk is to give an overview over some of the motivations for the study of quantum spin glasses. I will also review some first mathematical results in this field. Among them is a derivation of the key features of the thermal phase diagram of the simplest of all mean-field spin glasses, the quantum random energy model.

16.15-16.45 Uhr Kaffeepause

16.15 Uhr Matthias Erbar (Bonn): A variational characterization of the Sine_ß point process

The one-dimensional log gas in finite volume is a system of particles interacting via a repulsive logarithmic potential and confined by some external field. When the number of particles goes to infinity, their macroscopic empirical distribution approaches a deterministic limit shape. When zooming in one sees microscopic fluctuations around this limit which are described in the limit by a stationary point process, the Sine_ß process constructed by Valko and Virag. Leblé and Serfaty have established a large deviation principle for the microscopic configurations governed by a rate function which is the sum of a specific entropy and a renormalized interaction energy. Thus the typical microscopic behavior of the gas is described by the minimizers of this free energy functional, one of which is the Sine_ß process. We show that this is indeed the unique minimizer. Our argument is based on optimal transport of random point configurations and exploits strict displacement convexity in the free energy functional. Joint work with Martin Huesmann and Thomas Leblé 


MathFinanceColloquium/ Berufspraxiskolloquium:

Donnerstag, 05.12.2019, 16:15 Uhr, Raum 711 groß

Dr. Jürgen Bierbaum (Alte Leipziger Versicherung): Bewertung in unvollständigen Märkten - Finanzmathematik in der Lebensversicherung

Die Mehrzahl der Lebensversicherungsverträge in Deutschland enthält langfristige Zinsgarantien. Die Preisfindung sowie die ökonomische und bilanzielle Bewertung dieser Verträge erfordert die Entwicklung komplexer finanz- und versicherungsmathematischer Modelle. Wegen der Illiquidität der Märkte für langfristige Kapitalanlagen ist auch die Kalibrierung der Bewertungsmodelle eine nichttriviale Aufgabe. Zusätzlich sollte bereits beim Produktdesign auf eine kapitaleffiziente Struktur der Verpflichtungen geachtet werden. Im Vortrag werden einige wichtige Aufgabenstellungen aus der Praxis sowie gängige Ansätze zu ihrer Lösung vorgestellt.

Im Anschluss ist eine kurze Nachsitzung im Frankfurt and Friends geplant.


Gastvortrag:

Montag, 18. November um 12:30 Uhr in Raum 110

Sprecher: Prof. Dr. Dirk Metzler, FB Biologie, LMU München

Hybridzone zwischen Rabenkrähen und Nebelkrähen: Artbildung allein durch Paarungspräferenzen?

Aaskrähen gibt es in zwei Farbmorphen: in Westeuropa als schwarze Rabenkrähen und in Nord-, Ost-, und Südeuropa als grau-schwarz-gemusterte Nebelkrähen. Wo die Verbreitungsgebiete der beiden Farbmorphen an einader grenzen,z.B. in Deutschland an der Elbe, kommt es zur Hybridisierung. Die Krähen scheinen jedoch Verpaarung innerhalb ihrer jeweiligen Farbmorphe zu bevorzugen. Mittels mathematischer Modellierung und numerischen Simulationen untersuchen wir, ob solche assortativen Paarungspräferenzen eine stabile Koexistenz der beiden Farbmorphen erklären kann und eventuell zur Aufspaltung der Aaskrähen in zwei Arten führen wird. Wir passen unser Modell an populationsgenetische Daten an und berücksichtigen die genetische Architektur der Gefiederfärbung. Eine überraschende Vorhersage unserer Modellierung ist, dass die Hybridzone einer räumlichen Dynamik unterliegt, die stark davon abhängt, wie zwei Genloci für die Ausprägung der Gefiederfärbung interagieren. (Kooperation mit Jochen Wolf, Joshua Penalba und Ulrich Knief)

Stochastisches Kolloquium:

Mittwoch, 13. November 2019, Raum 711 gr

14:00 Uhr: Vortrag von Prof. Dr. John T Whelan (School of Mathematical Sciences (Statistics), Rochester Institute of Technology and Institute for Theoretical Physics)

Bayesian Applications of the Bradley-Terry Model to Sports Team Ratings

The Bradley-Terry-Zermelo model has been widely used to evaluate paired comparison experiments, with applications ranging from taste tests to rating chess players. In this model, each object being compared has a strength parameter, and the probability of winning a comparison is proportional to this strength. I consider the application of this model to the problem of rating or ranking teams based on their game results when the schedule is not balanced. While the traditional maximum-likelihood implementation is adequate when there are many games played, the results can be undesirable over short seasons. E.g., if a team wins all of its games, the MLE of its strength is infinite. This can be resolved with a Bayesian approach where a joint posterior probability distribution is deduced for the Bradley-Terry strengths. Such an application requires a choice of prior distribution for these strengths. While most authors have considered families of prior distributions which can reflect the experimenters' additional knowledge about the objects, for the application as a rating system, the different teams should be judged on equal terms. I will discuss some possible choices of prior distribution suitable for this application, as well as hierarchical models which leverage families of prior distributions, with examples from sports such as baseball, American football, and ice hockey.


Stochastisches Kolloquium:

Mittwoch, 30. Oktober 2019, 14:15 Uhr in Raum 903:

Hsien-Kuei Hwang (Academia Sinica, Taipei)

Stirling numbers of the second kind: the history of early developments and an elementary approach to asymptotic normality

A historical account is given of the early developments of the Stirling numbers of the second kind: in contrast to those in the West, those in the East, notably in Japan, have remained mostly unknown with the corresponding combinatorial origin traced back to at least 1600.
I will talk about the background, the mathematical developments in Japan in the Edo Period (1603--1868), and the corresponding developments in the West. Then after a brief survey on the various methods for proving the asymptotic normality N(n/log n, n/(log n)^2) of the Stirling numbers of the second kind, I will introduce a very simple, elementary approach to proving the local and central limit theorems. The approach, based on the principle of inclusion and exclusion and Stirling's formula for the factorial, is also applicable to several dozens of other examples in the literature and in the OEIS (Online Encyclopedia of Integer Sequences). This talk is based on joint works with Xiaoling Dou (Waseda University) and with Chong-Yi Li (Academia Sinica).


Oberseminar Stochastik:

Mittwoch, 16. Oktober 2019, Raum 711 gr

14:00 Uhr: Master-Abschlussvortrag Lucas Then

Cumulant-Covariances and their Application within Homogeneous Marked Poisson Process Models for Parallel Spike Trains


MathFinanceColloquium:

Montag, 02.09.2019, 17:15 Uhr, Raum 711 groß

Jiling Cao (Auckland University of Technology):
Inferring information from the S&P 500 and CBOE indices: The more the merrier ?

The Chicago Board Options Exchange (CBOE) updated the CBOE Volatility Index (VIX) in 2003 and further launched the CBOE Skew Index (SKEW) in 2011, in order to measure the 30-day risk-neutral volatility and skewness of the S&P 500 Index (SPX). In this work, we mainly compares the information extracted from the SPX and CBOE indices in terms of the SPX option pricing performance. Based on our analysis, VIX is a very informative index for option prices. Whether adding the SKEW or the VIX term structure can improve the option pricing performance depends on the model we choose. Roughly speaking, the VIX term structure is informative for some models, while, the SKEW is very noisy and does not contain much important information for option prices.


Oberseminar Stochastik:

Mittwoch, 14. August 2019, Raum 711 gr

14:00 Uhr: Bachelor-Abschlussvortrag von Anna-Lena Weinel

Minima und Maxima einer verzweigenden Irrfahrt

15:00 Uhr: Bachelor-Abschlussvortrag von Jan Lukas Igelbrink 

Rekursive Baumprozesse: Endogenität und bivariate Eindeutigkeit

Rhein-Main Kolloquium Stochastik:

Freitag, 24. Mai 2019: Campus Bockenheim, Robert-Mayer-Straße 10, Raum 711 groß, 7. OG

15:15 Roland Bauerschmidt (University of Cambridge): 

Dynamics of strongly correlated spin systems
I will discuss some results on the problem of understanding the long-time behaviour of Glauber and Kawasaki dynamics of spin systems in the regimes of strong correlations. This is joint work with Thierry Bodineau.

16:15 – 16:45 Uhr:    Kaffee und Tee

16:45 h Prof. Dr. Chiranjib Mukherjee (Universität Münster):

Gaussian multiplicative chaos in the Wiener space
In the classical finite dimensional setting, a Gaussian multiplicative chaos (GMC) is obtained by tilting an ambient measure by the exponential of a centred Gaussian field indexed by a domain in the Euclidean space. In the two-dimensional setting and when the underlying field is "log-correlated", GMC measures share close connection to the 2D Liouville quantum gravity, which has seen a lot of revived interest in the recent years.
A natural question is to construct a GMC in the infinite dimensional setting, where techniques based on log-correlated fields in finite dimensions are no longer available. In the present context, we consider a GMC on the classical Wiener space, driven by a (mollified) Gaussian space-time white noise. In $d\geq 3$, in a previous work with A. Shamov and O. Zeitouni, we showed that the total mass of this GMC, which is directly connected to the (smoothened) Kardar-Parisi-Zhang equation in $d\geq 3$, converges for small noise intensity to a well-defined strictly positive random variable, while for larger intensity (i.e. for small temperature) it collapses to zero. We will report on joint work with Yannic Bröker (Münster) where we study the endpoint distribution of a Brownian path under the GMC measure and show that, for low temperature, the endpoint GMC distribution localizes in few spatial islands and produces asymptotically purely atomic states.


Stochastisches Kolloquium:

Mittwoch, 8. Mai 2019, 14:15 Uhr in Raum 711 gr:

Christian Webb (Aalto/Finland)

An introduction to log-correlated fields and multiplicative chaos

Log-correlated fields are stochastic processes arising e.g. in various models of statistical mechanics, probabilistic combinatorics, and probabilistic number theory. They are characterized by having a logarithmic singularity in their covariance. Multiplicative chaos measures are random fractal measures built from these log-correlated fields. I will briefly discuss the precise definition of these objects, how multiplicative chaos measures can be used to study extreme values of log-correlated fields, and time permitting, how this type of results can be applied e.g. in random matrix theory.