Existence of bounded uniformly continuous mild solutions on $\Bbb{R}$ of evolution equations and their asymptotic behaviour

Mathematics – Functional Analysis

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17 pages

Scientific paper

We prove that $u'= A u + \phi $ has on $\Bbb{R}$ a mild solution $u_{\phi}\in BUC (\Bbb{R},X)$ (that is bounded and uniformly continuous), where $A$ is the generator of a $C_0$-semigroup on the Banach space ${X}$ with resolvent satisfying $||R(it,A)||= O(|t|^{-\theta})$, $|t|\to \infty $, with some $\theta > 1/2$, $\phi\in L^{\infty} (\Bbb{R},{X})$ and $i\,sp (\phi)\cap \sigma (A)=\emptyset$. As a consequence it is shown that if ${\Cal F}$ is the space of almost periodic, almost automorphic, bounded Levitan almost periodic or certain classes of recurrent functions and $\phi$ as above is such that $M_h \phi:=(1/h)\int_0^h \phi (\cdot+s)\, ds \in \Cal {F}$ for each $h >0$, then $u_{\phi}\in \Cal {F}\cap BUC (\Bbb{R},X)$. These results seem new and strengthen several recent theorems.

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