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3 votes
0 answers
108 views

A question on essentially self-adjoint differential operators of the type $\Delta=D^{\ast}D$

Let $(M,g)$ be a smooth (connected, complete, oriented) Riemannian manifold and let $D:C^{\infty}(M)\to C^{\infty}(M)$ be a linear partial differential operator, which I view as an operator in $L^{2}(...
B.Hueber's user avatar
  • 1,171
0 votes
0 answers
29 views

On constructing the canonical boundary operator for a given differential operator

Given an $n\times n$ matrix $$X=\begin{pmatrix} x_{11} & x_{12} & \cdots & x_{1n} \\ x_{21} & x_{22} & \cdots & x_{2n} \\ \vdots & \vdots & \ddots & \vdots \\ x_{n1}...
Ryan Hendricks's user avatar
2 votes
1 answer
255 views

Differential equation involving square root

I am absolutely not familiar with differential equations. However, I am facing the following differential equation: \begin{equation} a(x)y^{\prime}(x)+b(x)y(x)=c(x)\sqrt{y^{2}(x)+d(x)} \end{equation} ...
Dennis Marx's user avatar
5 votes
1 answer
375 views

Looking for a counterexample: Conditioning increases regularity?

Let $p(x,y,z)$ be a joint density (over $\mathbb{R}^3$) under no smoothness or regularity assumptions, besides its existence. I am looking for a (counter)example where $p(y|x)$ is less regular than $p(...
user5034's user avatar
2 votes
1 answer
86 views

Smoothness of resolvent of the infinitesimal generator of an Ito diffusion acting on bounded continuous function

Let $dX_t=\sigma(X_t)\,dW_t+\mu(X_t)\,dt$ be an Ito diffusion with Lipschitz coefficients and $\sigma(x)>0$. Let $f(x)$ be a continuous and bounded and non decreasing function. Can we prove that ...
Stocavista's user avatar
3 votes
0 answers
124 views

Estimating a solution to Euler-type ODE #2

This is a similar question to this but with a different ODE. Let $f$ be a continuous function in $L^2([1,\infty)$ satisfying $\sup_{r\geq 1} r|f(r)| <\infty$. Let $\ell$ be a positive integer, $R&...
Laithy's user avatar
  • 969
2 votes
1 answer
142 views

Estimating a solution to an Euler-type ODE

Let $f$ be a continuous function in $L^2([1,\infty)$ satisfying $\sup_{r\geq 1} r|f(r)| <\infty$. Let $\ell$ be a positive integer and $a$ be a real number. Let $u(r)$ be a function on $[1,\infty)$ ...
Laithy's user avatar
  • 969
8 votes
1 answer
537 views

Reference request: Expository paper on the use of functional analysis in differential and integral equations

Some textbooks on functional analysis do not hint that a major raison d'être of the subject is its use in the study of differential and integral equations. The reader could go all the way through ...
Michael Hardy's user avatar
0 votes
0 answers
97 views

Generator of an analytic semigroup

Perhaps I have a naive question. My question is as follows: When we consider a Cauchy proposition of the following form: $$ \begin{cases} x'(t)= -Ax(t)+ F(t,x(t)) &\text{for}\ t> 0 \\ x(0)=...
Mathlover's user avatar
3 votes
1 answer
128 views

Fréchet-valued symbols

Denote by $S^m \left ( \mathbb{R}^k \times \mathbb{R}^n \right)$ the usual space of symbols. Now let $E$ be a Fréchet Space. We can then define $S^m \left ( \mathbb{R}^k \times \mathbb{R}^n; E \right)$...
Ervin's user avatar
  • 395
6 votes
0 answers
219 views

Is the Taylor map continuous?

(Skip to the bolded theorem below for my question, if you'd like) Some context on asymptotic expansions and the Taylor map In the setting of irregular singularities of meromorphic connections on the ...
Brian Hepler's user avatar
2 votes
0 answers
143 views

How to prove $\operatorname{Id}-K$ is a proper map when $K$ is a $C^1$ compact operator?

Assume $X$ is a Banach space, $\Omega \subseteq X$ is an open set, $K\in {C}^{1}( \overline{\Omega}, X)$ is a nonlinear compact map, Is $\operatorname{Id}-K$ a proper map? I think maybe it has ...
boundary's user avatar
7 votes
2 answers
2k views

Method of characteristics for higher order PDEs in more than two variables

I am trying to understand the mathod of characteristics for solving partial differential equations. However, all the examples I found over the internet are for first order PDEs or for second order ...
Puzzled's user avatar
  • 8,998
23 votes
5 answers
2k views

PDEs and algebraic varieties

Let $P$ be an order $d$ differential operator with constant coefficients and consider a PDE of the form $Pf = \delta$. Taking the Fourier transform of $P$ we get a degree $d$ polynomial whose zero ...
Puzzled's user avatar
  • 8,998
6 votes
0 answers
201 views

Dependence of Neumann eigenvalues on the domain

I have the following problem in hands, in the context of a broader investigation: Let $V\in L^{n/2}$ compactly supported, where $n\geq 3$ is the dimension. I want to prove the following: For any $\...
Manuel Cañizares's user avatar
2 votes
0 answers
126 views

Differential equations: trying to connect a nonlinear equation to a linear one

The following is motivated by taking a product space $\Omega$ and splitting it into two parts via projections, whose subspaces, $T$ and $X$, are home to functions which satisfy a nonlinear PDE and a ...
John McManus's user avatar
2 votes
0 answers
153 views

Riesz’s representation theorem in a weak form

Let $\Omega$ be a bounded domain with smooth boundary in $\mathbb{R}^N$ $(N\geq 3)$, $\phi\in H_0^1(\Omega)$ is a solution of $$ \begin{cases}\Delta \phi+ \phi=h & \text { in } \Omega, \\ \phi=0 &...
Davidi Cone's user avatar
1 vote
1 answer
2k views

Product of Dirac delta function

The following equation may be meaningful, but how can we make it well-defined $$\delta(x-a)\cdot\delta(x-b)=0$$ Question: How do we defined this equation? Or more broadly define product between ...
userfp594's user avatar
4 votes
0 answers
126 views

Darboux integral for non-polynomial ODEs

Given a polynomial ODE in $n$-dimensions of maximal degree $d$ $$ \dot{x}_j=f_j(x)=\sum_{i_1,\dots,i_n=1}^d a_{i_1,\dots,i_n}^j x_1^{i_1}\dots x_n^{i_n} \quad \forall j=1,\ldots,n $$ we define ...
NicAG's user avatar
  • 247
1 vote
1 answer
197 views

Does convolution with heat kernel converge to pointwise evaluation?

Let $G(t, x) := \frac{1}{\sqrt{4 \pi t}} \exp\left( -\frac{x^2}{4 t }\right)$ for all $(t, x) \in (0, T) \times \mathbb{R}$ be the fundamental solution to the heat equation $\partial_tu = \partial_{...
Hyperbolic PDE friend's user avatar
2 votes
1 answer
139 views

Can a chaotic trajectory solve an algebraic equation?

Given a polynomial ODE in $n$-dimensions of maximal degree $d$ $$\dot{x}_j=f_j(x)=\sum_{i_{1},\dots,i_{n}=1}^{d}a_{i_{1},\dots,i_{n}}^{j}x_{1}^{i_{1}}\dots x_{n}^{i_{n}} \quad \forall j=1,...,n$$ we ...
NicAG's user avatar
  • 247
1 vote
0 answers
37 views

Unique smallest degree algebraic solution to polynomial ODE

Let's assume we are given a degree $d$ polynomial VF as a map $f: \mathbb{R}^n \rightarrow \mathbb{R}^n$ $$f_j(x)=\sum_{i_{1},\dots,i_{n}=1}^{d}a^j_{i_{1},\dots,i_{n}}x_{1}^{i_{1}}\dots x_{n}^{i_{n}}$$...
NicAG's user avatar
  • 247
0 votes
0 answers
77 views

Completeness of a normed space

We consider the set $\mathcal{PC}([-r,0],X)$ $$\mathcal{PC}([-r,0],X):=\{\varphi:[-r, 0] \rightarrow X: \varphi \text{ is continuous everywhere except for a finite number of points } t_* \text{ ...
Mathlover's user avatar
5 votes
1 answer
165 views

Algebraic solutions of polynomial ODEs

Given a polynomial ODE in $n$-dimensions of maximal degree $d$ $$ \dot{x}_j=f_j(x)=\sum_{i_{1},\dots,i_{n}=1}^{d}a_{i_{1},\dots,i_{n}}^{j}x_{1}^{i_{1}}\dots x_{n}^{i_{n}} \quad \forall j=1,...,n ...
NicAG's user avatar
  • 247
1 vote
0 answers
89 views

Domain where the fractional Laplacian operator is a closed operator

Consider the fractional Laplacian defined by $$(-\Delta)^s u(x) = P.V. \int_{\mathbb{R}^N} \frac{u(x) - u(y)}{|x - y|^{N + 2s}}dy, \ s \in (0,1).$$ Also consider that $$D((-\Delta)^s) = \{u \in H^s(\...
José's user avatar
  • 111
3 votes
1 answer
209 views

Must solutions to the time-independent Schrodinger equation that have discrete or negative eigenvalues be square-integrable?

This is a very straightforward question (although the answer may not be!) about a ubiquitous textbook physics situation. I assume that the answer is probably well-known, but I asked it on both Math ...
tparker's user avatar
  • 1,311
4 votes
1 answer
134 views

Properties of the displacement field, assuming only smooth charge distribution and Gauss's theorem

In physics, the displacement field satisfies Gauss's theorem: $$ \int_{\partial \Omega} {\bf D}\ {\bf n}\operatorname{d\!}S = \int_{\Omega} \rho\operatorname{d\!}V, $$ where $\Omega$ is a bounded ...
MikeTeX's user avatar
  • 687
4 votes
1 answer
418 views

Periodicity and Burger's equation

Consider the 1-dimensional Burger's equation on a finite interval $I=(0,1)$, $$u_t+uu_x=u_{xx}$$ with initial condition $$u(x,0)=f(x)$$ and boundary conditions $$u(0,t)=A(t) \qquad u(1,t)=B(t).$$ ...
T. Amdeberhan's user avatar
1 vote
0 answers
70 views

Continuity in the uniform operator topology of a map

I have a question concerning the continuity for $t>0$ in the uniform operator topology $L(X)$ of the following map: $$t\mapsto A^\alpha R(t)$$ where A is the infinitesimal generator of an analytic ...
Mathlover's user avatar
1 vote
1 answer
103 views

Are there PDEs in which Hessian appears in the weak formulation

Before stating the question, I would like to first use an example for the type of formulation that I'm interested in. Suppose we consider the continuity equation $\partial_t \rho + \mathrm{div}( \rho ...
Kacper Kurowski's user avatar
2 votes
2 answers
290 views

Domain of Schrödinger operators

Let $S$ be a Schrödinger operator on $\mathbb{R}$, $Su=-u''+Vu$ with $V\geq1$ continuous and going to $+\infty$ at infinity (you can think of it as $x^2+1$). I wondering which assumptions do I have to ...
BlueCharlie's user avatar
1 vote
0 answers
161 views

The norm of Sobolev space involving the time

Question. Is the following way of writing the norm of a Sobolev space involving the time correct? I would be grateful for any help. Let's assume we have a function $$ \mathbf{u} (\mathbf{x}; t) = \...
Abdulhameed Qahtan Abbood Alta's user avatar
1 vote
0 answers
119 views

On some integral equation

Let $M$ be the set of continuous and increasing functions $h: [0,1)\to\mathbb R_+$ s.t. $h(0)=0$ and $h(1-)=+\infty$. Consider the equation as follows: $$ 1-t= \int\limits_0^\infty p(x)\Phi\left(\frac{...
Fawen90's user avatar
  • 1,399
0 votes
1 answer
73 views

A solution satisfying an integral inequality is bounded [closed]

Let $y$ be a positive function and $c>0$. If $y$ satisfies the following integral inequality \begin{equation} y(t)+\int_{0}^{t}y(s)ds\leq c_{1}\int_{0}^{t} y^{\frac{3}{2}}(s)ds+c_{2} \end{equation} ...
Mee Na's user avatar
  • 11
0 votes
0 answers
137 views

Elliptic partial differential equations with Robin boundary condition and domain of fractional power of Robin Laplacian operator

This question has been posted on Mathematics Stack Exchange but got no response, and so I put it here. When I read the paper "On the attractor for a semilinear wave equation with critical ...
monotone operator's user avatar
3 votes
0 answers
99 views

Definition clarification: "regular directed distributions"

(I asked this question on math.stackexchange (see here) but didn't receive any reaction, hence I try it here. If it does not fit within here, just let me know in the comments.) In the definition of ...
B.Hueber's user avatar
  • 1,171
2 votes
0 answers
266 views

Compactness of a nonlinear operator

Let $H^{1}_{0}(0;\pi)=\{f\in L^{2}(0; \pi): f^{\prime}\in L^{2}(0; \pi)\ \text{and}\ f(0)=f(\pi)=0 \} .$ equipped with the following norm $$\|f\|=\Big(\int_{0}^{\pi}|f'(x)|^2dx \Big)^{\frac{1}{2}}$$ ...
Mathlover's user avatar
0 votes
0 answers
76 views

Linear dependence of the derivatives of a vector valued function

Let $f:\mathbb{R}\rightarrow\mathbb{R}^5$ be an injective smooth function, and consider the function $$ g:\mathbb{R}^5\rightarrow\mathbb{R}^5 $$ given by $$ g(t_1,t_2,t_3,a,b) = f(t_1)+a(f(t_2)-f(t_1))...
Puzzled's user avatar
  • 8,998
0 votes
0 answers
150 views

Prove or disprove the compactness of an operator

Consider $X=L^{2}(0,\pi, \mathbb{R})$. Let $X_{\frac{1}{2}}$ be the domain of $(\Delta)^\frac{1}{2}$ where $\Delta$ is the laplacien operator. We define the operator $K:C([0,a],X_{\frac{1}{2}})\...
Mathlover's user avatar
6 votes
2 answers
1k views

Exercise 8.13 - Brezis

Let $1 \leq p < \infty$ and $u \in W^{1,p}(\mathbb{R}$). Set $$ D_{h}u(x) = \frac{1}{h}(u(x+h) - u(x)), \ \ x \in \mathbb{R}, h> 0 $$ Show that $D_{h}u \to u'$ in $L^{p}(\mathbb{R}$) as $h \to ...
user253963's user avatar
4 votes
1 answer
343 views

Conditions for the existence of a solution to a semilinear second-order PDE with a-priori bounds

Consider the general semilinear elliptic second-order PDE $$ u_t-\mathcal L u=f\left(t,x,u,\nabla u\right) $$ where $\mathcal L$ is an elliptic linear operator (like minus the Laplace operator), $t \...
FDR's user avatar
  • 91
0 votes
0 answers
71 views

Sufficient condition to be increasing, following a vector field

Let $f\in\mathcal{C}^1(\mathbb{R}^n,\mathbb{R})$ $(n\geq 1)$ be an observable, and let $v^1,v^2\in\mathcal{C}^1(\mathbb{R}^n,\mathbb{R}^n)$ be two vector fields such that for any $(x^1_t)_{t\geq 0}$ ...
G. Panel's user avatar
  • 449
6 votes
2 answers
326 views

Looking for references to study $U^p$ and $V^p$ spaces

I am studying some papers in the analysis of nonlinear PDEs and I am encountering the $U^p$ and $V^p$ spaces for the first time. Where can I find references more detailed than papers? Edited The ...
Mr. Proof's user avatar
  • 159
1 vote
0 answers
97 views

Reference for unique classical solution to quasilinear uniformly parabolic PDEs

In this post, the author mentioned that "we know there is a unique classical solution (see the references below, for example)". I have tried to read the two references the author provided, ...
beyond's user avatar
  • 11
0 votes
0 answers
40 views

Time regularity of traces

I have a question about the time regularity of the traces in one dimension. Suppose I have a function space $$X = C^1([0,T];L^2(0,1))\cap C([0,T],H^1(0,1))$$ and I define an operator $E$ on $X$ by $(...
TOT's user avatar
  • 11
2 votes
1 answer
94 views

Decay rate for a small perturbation of a simple linear ODE

MOTIVATION. Let $f:[0,+\infty)\to \mathbb{R}$. Solutions to $\partial_tf(t) = -\lambda f(t)$, $f(0)\neq 0$ approach zero exactly as $e^{-\lambda t}$. This property is preserved if we apply an ...
Overflowian's user avatar
  • 2,533
6 votes
2 answers
347 views

Does there exist a framework for determining if a power series is "differentially algebraic"

It is a well studied problem to take a function $f$ expressed (usually expressed as a solution to a differential equation w/ some initial conditions) and ask if it has an "elementary closed form&...
Sidharth Ghoshal's user avatar
3 votes
1 answer
391 views

Factoring higher-order differential operators

I have been researching various methods for solving differential equations. In particular, I want to better understand the factoring approach. For example, if we want to solve a general second order ...
Doug's user avatar
  • 51
5 votes
0 answers
419 views

Nonlinear variation of constants formula

Suppose that we wish to solve $x'(t)=f(x(t))+g(x(t)), \; x(0)=x_0\in X,$ where $X$ is an infinite dimensional Banach space and $f , g : X \rightarrow X $ are two nonlinear functions. Furthermore, ...
Rabat's user avatar
  • 51
3 votes
1 answer
265 views

Convergence of the solutions of a ODE system

Consider this system of differential equations for $t\in[0,\infty)$: $$ \frac{d}{dt}x(t) = a(t) + F(x(t), y(t)),$$ $$ \frac{d}{dt}y(t) = a(t) + G(x(t), y(t)),$$ with positive initial conditions: $y(0)&...
moonlight's user avatar