Characterizing spectra of closed operators through existence of slowly growing solutions of their Cauchy problems
Huang, Sen
Studia Mathematica, Tome 113 (1995), p. 23-41 / Harvested from The Polish Digital Mathematics Library

Let A be a closed linear operator in a Banach space E. In the study of the nth-order abstract Cauchy problem u(n)(t)=Au(t), t ∈ ℝ, one is led to considering the linear Volterra equation (AVE) u(t)=p(t)+Aʃ0ta(t-s)u(s)ds, t ∈ ℝ, where a(·)Lloc1() and p(·) is a vector-valued polynomial of the form p(t)=j=0n1/(j!)xjtj for some elements xjE. We describe the spectral properties of the operator A through the existence of slowly growing solutions of the (AVE). The main tool is the notion of Carleman spectrum of a vector-valued function. Moreover, an extension of a theorem of Pólya in complex analysis is obtained and applied to the individual “Ax = 0” and “Tx = x” problem.

Publié le : 1995-01-01
EUDML-ID : urn:eudml:doc:216217
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     title = {Characterizing spectra of closed operators through existence of slowly growing solutions of their Cauchy problems},
     journal = {Studia Mathematica},
     volume = {113},
     year = {1995},
     pages = {23-41},
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Huang, Sen. Characterizing spectra of closed operators through existence of slowly growing solutions of their Cauchy problems. Studia Mathematica, Tome 113 (1995) pp. 23-41. http://gdmltest.u-ga.fr/item/bwmeta1.element.bwnjournal-article-smv116i1p23bwm/

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