Descrizione del progetto
Nuovi approcci per descrivere gli zero dei polinomi casuali
I polinomi casuali catturano l’interesse dei fisici in quanto sono in grado di descrivere con estrema precisione il comportamento dei gas di Coulomb o di determinati gas di Bose. Il progetto RandPol, finanziato dall’UE, si propone di studiare gli zero dei polinomi casuali, uno dei problemi matematici più antichi e cruciali. I problemi classici che emergono su scala macroscopica sono i seguenti: dove si possono trovare gli zero? Esistono descrizioni complete del comportamento degli zero isolati? Inoltre, i ricercatori sono interessati a comprendere il comportamento dei polinomi casuali su scala microscopica. In particolare, il progetto RandPol collegherà la ripartizione locale degli zero e l’interazione tra zero vicini con l’energia rinormalizzata, il che è fondamentale per descrivere il comportamento locale delle particelle in un gas di Coulomb.
Obiettivo
The aim of this project is to study the zeros of random polynomials. Random polynomials appeared in the 1930's with the pioneering works of Bloch, Polya and Kac. The study of random polynomials gained a strong interest of the physicists since the 1990's due to their connexion with interaction particle systems such as electron gases (also called Coulomb gases). Random polynomials were first considered as a toy model for more complicated systems, but in the 2000's they appeared to exactly describe the behavior of certain Bose Gases.
We want to understand the behavior of random polynomials at the macroscopic and microscopic scale. At the macroscopic scale, several questions naturally arise: Where can we locate the zeros? Are there isolated zeros far away from the rest of them? Can we describe the behavior of those isolated zeros?
Very recent breakthrough (2019) were made in both localisation and isolated zeros for specific models of random pomynomials with some symmetry constraints. Our goal is to obtain general results on these questions. We plan to develop new ideas to tackle these questions, without relying on the symmetry structure.
At the microscopic scale, we want to understand the local repartition of the zeros and the interaction between neighboors. This question lead to adapt concepts from mathematical physics such as the microscopic renormalized energy to the study of zeros of random polynomials. Recent studies also linked the local behavior of zeros of random polynomials to the zeros of Random Analytic Functions, which have a lot of connexions to several domains in mathematics (Analysis, Image processing, random matrix theory, mathematical physiqucs).
The concept of renormaliazed energy is very recent (2017), and was introduced by Leblé and Serfaty to understand the local behavior of particles from a Coulomb gas. We think that this approach can lead to a new understanding of the behavior of zeros of random polynomials.
Campo scientifico
Parole chiave
Programma(i)
Argomento(i)
Meccanismo di finanziamento
MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinatore
1211 Geneve
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