Eugene Bravyi, Perm State Technical University, Komsomolsky pr. 29a, Perm, Russia, e-mail: bravyi@perm.ru
Abstract: Consider boundary value problems for a functional differential equation
\begin{cases} x^{(n)}(t) =(T^+x)(t)-(T^-x)(t)+f(t),&t\in[a,b],
l x=c, \end{cases}
where $T^+,T^-\colon\bold C[a,b]\to\bold L[a,b]$ are positive linear operators; $l\colon\bold{AC}^{n-1}[a,b]\to\mathbb{R}^n$ is a linear bounded vector-functional, $f\in\bold L[a,b]$, $c\in\mathbb{R}^n$, $n\ge2$. Let the solvability set be the set of all points $({\mathcal T}^+,{\mathcal T}^-)\in\mathbb{R}_2^+$ such that for all operators $T^+$, $T^-$ with $\|T^{\pm}\|_{\bold C\to\bold L}={\mathcal T}^{\pm}$ the problems have a unique solution for every $f$ and $c$. A method of finding the solvability sets are proposed. Some new properties of these sets are obtained in various cases. We continue the investigations of the solvability sets started in R. Hakl, A. Lomtatidze, J. Sremr: Some boundary value problems for first order scalar functional differential equations. Folia Mathematica 10, Brno, 2002.
Keywords: functional differential equation, boundary value problem, periodic problem
Classification (MSC 2010): 34K06, 34K10, 34K13
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