Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8898775 | Journal of Differential Equations | 2018 | 50 Pages |
Abstract
In this paper we discuss the asymptotic stability as well as the well-posedness of the damped wave equation posed on a bounded domain Ω of Rn,nâ¥2,Ï(x)uttâÎu+â«0âg(s)div[a(x)âu(â
,tâs)]ds+b(x)ut=0, subject to a locally distributed viscoelastic effect driven by a nonnegative function a(x) and supplemented with a frictional damping b(x)â¥0 acting on a region A of Ω, where a=0 in A. Assuming that Ï(x) is constant, considering that the well-known geometric control condition (Ï,T0) holds and supposing that the relaxation function g is bounded by a function that decays exponentially to zero, we prove that the solutions to the corresponding partial viscoelastic model decay exponentially to zero, even in the absence of the frictional dissipative effect. In addition, in some suitable cases where the material density Ï(x) is not constant, it is also possible to remove the frictional damping term b(x)ut, that is, the localized viscoelastic damping is strong enough to assure that the system is exponentially stable. The semi-linear case is also considered.
Related Topics
Physical Sciences and Engineering
Mathematics
Analysis
Authors
M.M. Cavalcanti, V.N. Domingos Cavalcanti, M.A. Jorge Silva, A.Y. de Souza Franco,