Geometric Analysis on Solutions of Some Differential Inequalities and within Restricted Classes of Holomorphic Functions

Kinzebulatov, Damir

26 March 2012

Pars 1 and 2 are devoted to study of solutions of certain differential inequalities. Namely, in Part 1 we show that a germ of an analytic set (real or complex) admits a Gagliardo-Nirenberg type inequality with a certain exponent s>=1. At a regular point s=1, and the inequality becomes classical. As our examples show, s can be strictly greater than 1 even for an isolated singularity. In Part 2 we prove the property of unique continuation for solutions of differential inequality |\Delta u|<=|Vu| for a large class of potentials V. This result can be applied to the problem of absence of positive eigenvalues for self-adjoint Schroedinger operator -\Delta+V defined in the sense of the form sum. The results of Part 2 are joint with Leonid Shartser. In Parts 3 and 4 we derive the basic elements of complex function theory within some subalgebras of holomorphic functions (including extension from submanifolds, corona type theorem, properties of divisors, approximation property). Our key instruments and results are the analogues of Cartan theorems A and B for the `coherent sheaves' on the maximal ideal spaces of these subalgebras, and of Oka-Cartan theorem on coherence of the sheaves of ideals of the corresponding complex analytic subsets. More precisely, in Part 3 we consider the algebras of holomorphic functions on regular coverings of complex manifolds whose restrictions to each fiber belong to a translation-invariant Banach subalgebra of bounded functions endowed with sup-norm. The model examples of such subalgebras are Bohr's holomorphic almost periodic functions on tube domains, and all fibrewise bounded holomorphic functions on regular coverings of complex manifolds. In Part 4 the primary object of study is the subalgebra of bounded holomorphic functions on the unit disk whose moduli can have only boundary discontinuities of the first kind. The results of Parts 3 and 4 are joint with Alexander Brudnyi.

Several complex variables

Unique continuation

0405

Geometric Analysis on Solutions of Some Differential Inequalities and within Restricted Classes of Holomorphic Functions

Kinzebulatov, Damir

26 March 2012

Pars 1 and 2 are devoted to study of solutions of certain differential inequalities. Namely, in Part 1 we show that a germ of an analytic set (real or complex) admits a Gagliardo-Nirenberg type inequality with a certain exponent s>=1. At a regular point s=1, and the inequality becomes classical. As our examples show, s can be strictly greater than 1 even for an isolated singularity. In Part 2 we prove the property of unique continuation for solutions of differential inequality |\Delta u|<=|Vu| for a large class of potentials V. This result can be applied to the problem of absence of positive eigenvalues for self-adjoint Schroedinger operator -\Delta+V defined in the sense of the form sum. The results of Part 2 are joint with Leonid Shartser. In Parts 3 and 4 we derive the basic elements of complex function theory within some subalgebras of holomorphic functions (including extension from submanifolds, corona type theorem, properties of divisors, approximation property). Our key instruments and results are the analogues of Cartan theorems A and B for the `coherent sheaves' on the maximal ideal spaces of these subalgebras, and of Oka-Cartan theorem on coherence of the sheaves of ideals of the corresponding complex analytic subsets. More precisely, in Part 3 we consider the algebras of holomorphic functions on regular coverings of complex manifolds whose restrictions to each fiber belong to a translation-invariant Banach subalgebra of bounded functions endowed with sup-norm. The model examples of such subalgebras are Bohr's holomorphic almost periodic functions on tube domains, and all fibrewise bounded holomorphic functions on regular coverings of complex manifolds. In Part 4 the primary object of study is the subalgebra of bounded holomorphic functions on the unit disk whose moduli can have only boundary discontinuities of the first kind. The results of Parts 3 and 4 are joint with Alexander Brudnyi.

Several complex variables

Unique continuation

0405

Propriedades de continuação única para soluções de equações de Schrödinger com ponto de interação / Unique continuation properties for solutions of Schrödinger equations with point interaction

Cabarcas Urriola, Hector Jose

17 August 2015

Neste trabalho, estudamos propriedades de continuação única para as soluções da equação tipo Schrödinger com um ponto interação centrado em x=0, \\partial_tu=i(\\Delta_Z+V)u, onde V=V(x,t) é uma função de valor real e -\\Delta_Z é o operador escrito formalmente como \\[-\\Delta_Z=-\\frac\\frac{d^2}{dx^2}+Z\\delta_0,\\] sendo \\delta_0 a delta de Dirac centrada em zero e Z qualquer número real. Logo, usamos estes resultados para ver o possível fenômeno de concentração das soluções, que explodem, da equação de tipo Schrödinger não linear com um ponto de interação em x=0, \\[\\partial_tu=i(\\Delta_Zu+|u|^u),\\] com ho>5. Também, mostramos que para certas condições sobre o potencial dependente do tempo V, a equação linear em cima tem soluções não triviais. / In this work, we study unique continuation properties for solutions of the Schrödinger equations with an point interaction centered at $x=0$, \\begin\\label \\partial_tu=i(\\Delta_Z+V)u, \\end where $V=V(x,t)$ is real value function and $-\\Delta_Z$ is the operator formally written \\[-\\Delta_Z=-\\frac\\frac{d^2}{dx^2}+Z\\delta_0,\\] and $\\delta_0$ is Dirac\'s delta centered at zero and $Z$ is a real number. Next, we use these results in order to study the possible profile of the concentration of blow up solutions for the non linear Schrödinger equation with a point interaction at $x=0$, \\[\\partial_tu=i(\\Delta_Zu+|u|^u),\\] with $ho>5$. Besides, we show that the equation above has non trivial solutions for some conditions on the time dependent potencial $V$.

Delta de Dirac

Dirac's delta

Equação de Schrödinger

Propriedade de continuação única

Schrödinger equations

Unique continuation

Propriedades de continuação única para soluções de equações de Schrödinger com ponto de interação / Unique continuation properties for solutions of Schrödinger equations with point interaction

Hector Jose Cabarcas Urriola

17 August 2015

Neste trabalho, estudamos propriedades de continuação única para as soluções da equação tipo Schrödinger com um ponto interação centrado em x=0, \\partial_tu=i(\\Delta_Z+V)u, onde V=V(x,t) é uma função de valor real e -\\Delta_Z é o operador escrito formalmente como \\[-\\Delta_Z=-\\frac\\frac{d^2}{dx^2}+Z\\delta_0,\\] sendo \\delta_0 a delta de Dirac centrada em zero e Z qualquer número real. Logo, usamos estes resultados para ver o possível fenômeno de concentração das soluções, que explodem, da equação de tipo Schrödinger não linear com um ponto de interação em x=0, \\[\\partial_tu=i(\\Delta_Zu+|u|^u),\\] com ho>5. Também, mostramos que para certas condições sobre o potencial dependente do tempo V, a equação linear em cima tem soluções não triviais. / In this work, we study unique continuation properties for solutions of the Schrödinger equations with an point interaction centered at $x=0$, \\begin\\label \\partial_tu=i(\\Delta_Z+V)u, \\end where $V=V(x,t)$ is real value function and $-\\Delta_Z$ is the operator formally written \\[-\\Delta_Z=-\\frac\\frac{d^2}{dx^2}+Z\\delta_0,\\] and $\\delta_0$ is Dirac\'s delta centered at zero and $Z$ is a real number. Next, we use these results in order to study the possible profile of the concentration of blow up solutions for the non linear Schrödinger equation with a point interaction at $x=0$, \\[\\partial_tu=i(\\Delta_Zu+|u|^u),\\] with $ho>5$. Besides, we show that the equation above has non trivial solutions for some conditions on the time dependent potencial $V$.

Delta de Dirac

Equação de Schrödinger

Propriedade de continuação única

Dirac's delta

Schrödinger equations

Unique continuation

The Calderón problem for connections

Cekić, Mihajlo

January 2017

This thesis is concerned with the inverse problem of determining a unitary connection $A$ on a Hermitian vector bundle $E$ of rank $m$ over a compact Riemannian manifold $(M, g)$ from the Dirichlet-to-Neumann (DN) map $\Lambda_A$ of the associated connection Laplacian $d_A^*d_A$. The connection is to be determined up to a unitary gauge equivalence equal to the identity at the boundary. In our first approach to the problem, we restrict our attention to conformally transversally anisotropic (cylindrical) manifolds $M \Subset \mathbb{R}\times M_0$. Our strategy can be described as follows: we construct the special Complex Geometric Optics solutions oscillating in the vertical direction, that concentrate near geodesics and use their density in an integral identity to reduce the problem to a suitable $X$-ray transform on $M_0$. The construction is based on our proof of existence of Gaussian Beams on $M_0$, which are a family of smooth approximate solutions to $d_A^*d_Au = 0$ depending on a parameter $\tau \in \mathbb{R}$, bounded in $L^2$ norm and concentrating in measure along geodesics when $\tau \to \infty$, whereas the small remainder (that makes the solution exact) can be shown to exist by using suitable Carleman estimates. In the case $m = 1$, we prove the recovery of the connection given the injectivity of the $X$-ray transform on $0$ and $1$-forms on $M_0$. For $m > 1$ and $M_0$ simple we reduce the problem to a certain two dimensional $\textit{new non-abelian ray transform}$. In our second approach, we assume that the connection $A$ is a $\textit{Yang-Mills connection}$ and no additional assumption on $M$. We construct a global gauge for $A$ (possibly singular at some points) that ties well with the DN map and in which the Yang-Mills equations become elliptic. By using the unique continuation property for elliptic systems and the fact that the singular set is suitably small, we are able to propagate the gauges globally. For the case $m = 1$ we are able to reconstruct the connection, whereas for $m > 1$ we are forced to make the technical assumption that $(M, g)$ is analytic in order to prove the recovery. Finally, in both approaches we are using the vital fact that is proved in this work: $\Lambda_A$ is a pseudodifferential operator of order $1$ acting on sections of $E|_{\partial M}$, whose full symbol determines the full Taylor expansion of $A$ at the boundary.

515

Contrôlabilité de systèmes paraboliques linéaires couplés / Controllability of coupled linear parabolic systems

Olive, Guillaume

14 November 2013

Dans cette thèse on s'intéresse à la contrôlabilité de deux classes de systèmes paraboliques linéaires.On caractérise dans un premier temps la contrôlabilité à zéro de systèmes à coefficients constants en dimension 1 lorsque les contrôles agissent sur différentes parties du domaine ou de sa frontière.On regarde ensuite avec le théorème de Fattorini la contrôlabilité frontière approchée de ces systèmes en dimension quelconque.On obtient notamment que les systèmes de 2 équations sont toujours contrôlables dans un rectangle si la zone de contrôle contient 2 directions.Dans un autre travail sur les systèmes à coefficients constants, on obtient une estimation du coût du contrôle frontière à zéro en dimension 1.On utilise ce résultat pour montrer que la contrôlabilité frontière à zéro dans des domaines cylindrique est réduite à la contrôlabilité frontière à zéro en dimension 1.On étudie ensuite la contrôlabilité approchée de systèmes en cascade avec un couplage d'ordre 1.On prouve que la contrôlabilité interne avec un couplage constant à toujours lieu, quel que soit la dimension et la zone de contrôle.On établit d'autre part une caractérisation de la contrôlabilité frontière en dimension 1 avec un couplage variable.Enfin, dans une dernière partie on s'intéresse à la contrôlabilité interne approchée de systèmes en cascade à coefficients variables en dimension 1.On montre qu'on est ramené à établir une caractérisation de la propriété de continuation unique pour une équation elliptique non-homogène.A l'aide de la caractérisation alors obtenue on montre en particulier comment la géométrie de la zone de contrôle peut influencer la contrôlabilité des systèmes. / This thesis focuses on the controllability of two classes of linear parabolic systems.We start with a caracterization of the null-controllability of systems with constant coefficients in dimension 1 where the controls are acting on different parts of the domain or its boundary.With the help of the theorem of Fattorini we then look at the boundary approximate controllability of these systems in any dimension.We show that a system of 2 equations is always approximately controllable on a rectangle if we assume that the control domain contains 2 directions.In another work on the systems with constant coefficients, we obtain an estimate of the boundary null-control cost in dimension 1.We then use this result to show that the boundary null-controllability in cylindrical domains is reduced to the boundary null-controllability in dimension 1.We then study the approximate controllability of cascade systems with a first order coupling term.We prove the distributed controllability when the coupling is constant, whatever the dimension and control domain are.On the other hand, we establish a caracterisation of the boundary controllability in dimension 1 for space-dependent couplings.Last, we investigate the distributed approximate controllability of cascade systems with space-dependent coefficients in dimension 1.Using the theorem of Fattorini and the structure of the systems under study we are lead to characterize the unique continuation property for a non-homogeneous elliptic equation.With the help of the caracterization then obtained we show in particular how the geometry of the control domain can affect the controllability properties of systems.

Systèmes paraboliques

Contrôlabilité interne

Contrôlabilité frontière

Continuation unique

Théorème de Fattorini

Test de Hautus

Condition de Kalman

Inégalités de Carleman

Parabolic systems

Distributed controllability

Boundary controllability

Unique continuation

Fattorini theorem

Hautus test

Kalman condition

Carleman estimates