School-conference in analysis in Sirius

13 Oct 2023, 10:00 → 17 Oct 2023, 19:00 Europe/Moscow

Sochi, Sirius Math Centre

‎L. Euler Institute School in Analysis in Sirius

October 13 – October 17, 2023

L. Euler Institute (EIMI SPbU) presents an advanced school for young researchers featuring five minicourses in modern analysis, such as wavelets, discrete and continuous duality with respect to Dirac and Schrödinger operators, singular integral operators, Padé approximations, orthogonal polynomials. The target audience includes graduate, master and senior bachelor students of any mathematical specialty.

The lecture notes and exercises are below on this page

The program is here.

ZOOM streaming is here.

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Lecturers:

 

Maria Skopina Saint Petersburg university

Mark Malamud Peoples' Friendship university

Roman Bessonov Saint Petersburg university

Dmitry Stolyarov Saint Petersburg university

Aleksandr Komlov Institute of mathematics, RAS

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Courses:

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Wavelets (Maria Skopina)

The word "wavelet" appeared about thirty  years ago. At that time a new topic of analysis  arose due to the desire  to study bases and other representation systems consisting of dilations and translations of one or several functions. An interest in these investigations was connected with an engineering aspect (that is not typical for the end of XX-th century), because such systems  are in great demand in  their applications to signal and image processing. Wavelet analysis was formed in the late 1980s -- early 1990s in the works of Y. Meyer, S. Mallat, P.J. Lemarier, I. Daubechies, A. Cohen, W. Lawton and others. A general method for constructing wavelet systems, based on the notion of multiresolution analysis, was developed by Y. Meyer and S. Mallat. One of the main goals was construction of compactly supported smooth wavelets. This problem was solved due to I. Daubechies. Later the wavelet theory was extended in different directions, in particular,  wavelet frames, multivariate wavelets with matrix dilations, wavelet on the groups and other structures were actively studied up to now.

 

Lecture 1: TBA

Lecture 2: TBA

Lecture 3: TBA

Lecture 4: TBA

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To the spectral theory of 1-D Schrödinger and Dirac operators with point interactions and quantum graphs (Mark Malamud)

 

The lectures will be devoted to the duality of certain spectral properties of the operators mentioned above and their discrete  counterparts . Among others we will discuss self-adjointness, semiboundedness, discreteness and absolutely continuous properties,  compactness and finiteness of negative parts of these operators, etc.

 

Lecture 1: TBA

Lecture 2: TBA

Lecture 3: TBA

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Entropy function in the theory of orthogonal polynomials (Roman Bessonov)

 

This minicourse is devoted to recent results in the theory of orthogonal polynomials on the unit circle. They were obtained via a new method based on the usage of an entropy function of the underlying orthogonality measure. The main goal of the course is to present a detailed description of this method and discuss related open problems. The basics of the theory of orthogonal polynomials will be given along the way.

 

Lecture 1: TBA

Lecture 2: TBA

Lecture 3: TBA

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Estimates of differential operators in L^1 and related questions (Dmitriy Stolyarov)

In 1938 S.L. Sobolev proved his famous embedding theorem: the Sobolev space W_p^1 embeds continuously into the L^q space, provided 1/p - 1/q = 1/d, d being the dimension of the underlying space, and p > 1. This result was extended to the case p=1 twenty years later by E. Gagliardo and L. Nirenberg. In early 2000's J. Bourgain and H. Brezis observed that there exist similar estimates, which are relatively easy to obtain for p > 1, but are much more involved (if they are even valid) for p = 1. One of the key aspects in these matters is attributed to the vectorial nature of the differential operators in question (as, for instance, the fact that the gradient is a vector function, and not a scalar one). Nowadays, there is a certain change of perspective regarding these topics: such inequalities are believed to be interesting not only in a hermetic sense -- as a challenge to one's analytical prowess, -- but also as a way to establish deep connections to the geometric measure theory. We will describe the (by now) classical Bourgain--Brezis theory, highlight the aforementioned geometric connections, and explain how simple tricks from harmonic analysis help in this business.

Lecture 1: TBA

Lecture 2: TBA

Lecture 3: TBA

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Padé approximations, their generalizations and related problems (Aleksandr Komlov)

 

Padé approximants are the best rational approximations of a given power series. We show that Padé approximants are closely related to orthogonal polynomials. This mini-course will cover the basics of the classical Stahl theory of convergence of Padé approximants of multivalued analytic functions. To do this, we will touch on the potential theory on the complex plane and Riemann sphere. We also consider such generalizations of Padé polynomials as Hermite-Padé polynomials of types I and II. For them, there is no general convergence theory analogous to the Stahl theory. We discuss the cases in which it is possible to describe their asymptotic behavior, how to use them for asymptotic recovery of the values of multivalued analytic functions, and formulate new problems arising here.

 

Lecture 1: TBA

Lecture 2: TBA

Lecture 3: TBA

Lecture 4: TBA

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Institutions participating in the organization of the event:

• Leonhard Euler International Mathematical Institute in Saint Petersburg
• Probability techniques in Analysis laboratory at Saint Petersburg university

Porg13-17.pdf

Friday, 13 October

10:00 → 11:00 Estimates of differential operators in L^1 and related questions, 1

Speaker: Dmitriy Stolyarov

11:00 → 11:30 Coffee-break

See title

11:30 → 12:30 To the spectral theory of 1-D Schrödinger and Dirac operators with point interactions and quantum graphs , 1

Speaker: Mark Malamud

12:30 → 12:40 Break

12:40 → 13:40 To the spectral theory of 1-D Schrödinger and Dirac operators with point interactions and quantum graphs , 2

Speaker: Mark Malamud

13:40 → 15:00 Lunch

15:00 → 16:00 Padé approximations, their generalizations and related problems , 1

Speaker: Alexander Komlov

16:00 → 16:30 Coffee-break

See title

16:30 → 17:30 Padé approximations, their generalizations and related problems , 2

Speaker: Alexander Komlov

Saturday, 14 October

10:00 → 11:00 Estimates of differential operators in L^1 and related questions, 2

Speaker: Dmitriy Stolyarov

11:00 → 11:30 Coffee-break

See title

11:30 → 12:30 Estimates of differential operators in L^1 and related questions, 3

Speaker: Dmitriy Stolyarov

12:30 → 12:40 Break

12:40 → 13:40 Padé approximations, their generalizations and related problems , 3

Speaker: Alexander Komlov

13:40 → 15:00 Lunch

15:00 → 16:00 Padé approximations, their generalizations and related problems , 4

Speaker: Alexander Komlov

16:00 → 16:30 Coffee-break

16:30 → 17:30 To the spectral theory of 1-D Schrödinger and Dirac operators with point interactions and quantum graphs , 3

Speaker: Mark Malamud

Sunday, 15 October

10:00 → 11:00 Wavelets, 1

Speaker: Maria Skopina

11:00 → 11:30 Coffee-break

11:30 → 12:30 Wavelets, 2

Speaker: Maria Skopina

12:30 → 12:40 Break

12:40 → 13:40 Entropy function in the theory of orthogonal polynomials, 1

Speaker: Roman Bessonov

13:40 → 15:00 Lunch

15:00 → 16:00 Break

16:00 → 19:00 Open problem session

16.00-16.15 П.А. Мозоляко: Дискретные потенциалы типа Друри-Арвесона

Мы рассматриваем одну задачу теории потенциала на графах, связанную с известным функциональным пространством Друри-Арвесона в шаре.

16.20-16.35 Т.Г. Батенев: Представляющие системы из воспроизводящих ядер в пространствах

Система элементов $\{x_n\}_n$ бесконечномерного топологического векторного пространства $X$ называется представляющей для $X$, если любой элемент пространства раскладывается в сходящийся ряд по элементам $x_n$ с некоторыми коэффициентами. Изучение представляющий систем началось с работ A.Ф. Леонтьева, который доказал, в частности, что любую аналитическую функцию в ограниченной выпуклой области можно представить рядом экспонент (показатели экспонент зависят только от области). В докладе будет описана элементарная конструкция построения представляющих систем из "ядер Коши" в пространствах Харди $H^p$ в шаре и полидиске, а также представляющих систем из воспроизводящих ядер в некотором классе весовых пространств Харди в круге.

16.40-16.55 Р.Ш. Хасянов: Оценки сумм коэффициентов подчинëнных функций

На докладе я расскажу про задачу о сравнении сумм квадратов коэффициентов подчиненных функций, а также о связи этой проблемы с неравенствами Бора.

17.00-17.15 А.А. Лишанский: Гиперцикличность оператора обратного сдвига на графах

В 2023 году К.-Г. Гросс-Эрдманном и Д. Папатанасиу были опубликованы критерии гиперцикличности оператора обратного сдвига в весовом пространстве l_p на ориентированном дереве. В докладе представлены первые результаты такого рода для ориентированных графов, не являющихся деревьями, полученные совместно с А. Д. Барановым.

17.20-17.35 И.И. Заволокин: Об инвариантах 3 эрмитовых форм трех переменных

 äîêëàäå ïëàíèðóåòñÿ îáñóäèòü ìîäåëüíûå ïîâåðõíîñòè, ñâÿçàííûå ñ íèìè ãåî-
ìåòðèþ è àëãåáðó. Áóäåò ðàññêàçàíî î çàäà÷å ïîèñêà ñèñòåìû èíâàðèàíòîâ â ñëó÷àå

òðåõ ýðìèòîâûõ ôîðì.

17.40-17.55 Л.П. Горбунов: Асимптотическое поведение мер на пространстве m-адических интервалов

Теорема Марштранда утверждает, что для нецелого $\alpha$ борелевская локально конечная мера на евклидовом пространстве не может почти всюду иметь конечные и положительные дробные $\alpha$-плотности. Более того, верно следующее её обобщение: отношение верхней дробной $\alpha$-плотности к нижней отделено от единицы константой, зависящей только от $\alpha$ и размерности пространства — т.е. присутствует «зазор». К сожалению, численные оценки на этот «зазор» неизвестны. В моей работе был доказан аналог обобщённой теоремы Марштранда для более просто устроенного пространства $m$-адических интервалов с получением явной оценки на «зазор».

18.00-18.15 В.М. Егоров: Целозначные целые функции

В 1915 году Дьёрдь Пойа опубликовал статью, в которой доказал сле-
дующие теоремы.

Теорема 1 Если f(z) - целая функция такая, что f(N) ⊆ Z, limR→∞
R
1
2 max|z|=R|f(z)|
2R =

0, тогда f(z) - многочлен.
Теорема 2 Если f(z) - целая функция такая, что f(Z) ⊆ Z, limR→∞
R
3
2 max|z|=R|f(z)|
(
3+√
5
2
)R =

0, тогда f(z) - многочлен.
Позже Харди опубликовал статью , в которой показал, что утверждения
теорем справедливы, если заменить R
1
2 и R
3
2 на 1,R соответственно.Доклад
будет содержать более простое доказательство теоремы 2,принадлежащее
автору, основанное на применении разностных операторов, а также обзор
основных достижений в этой области науки и открытых проблем.

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Monday, 16 October

16:40 → 17:40 Wavelets, 3

Speaker: Maria Skopina

17:40 → 17:50 Break

17:50 → 18:50 Wavelets, 4

Speaker: Maria Skopina

Tuesday, 17 October

16:40 → 17:40 Entropy function in the theory of orthogonal polynomials, 2

Speaker: Roman Bessonov

17:40 → 17:50 Break

17:50 → 18:50 Entropy function in the theory of orthogonal polynomials, 3

Speaker: Roman Bessonov