Stability and regularity of an abstract coupled hyperbolic system: A case of zero spectrum

Zhong Jie Han, Zhaobin Kuang, Zhuangyi Liu, Qiong Zhang

Research output: Contribution to journalArticlepeer-review

Abstract

In this paper, we analyze the decay rate and regularity of a coupled hyperbolic system given by {utt=−aAγu+bAαyt,ytt=−Ay−bAαut−kAβyt,u(0)=u0,ut(0)=v0,y(0)=y0,yt(0)=z0, where A is a positive definite self-adjoint operator and a,b,k are positive constants. The system is parameterized by three parameters (α,β,γ) and we consider the case where α>[Formula presented], which presents a singularity at zero. Based on frequency domain analysis, we identify the optimal decay rate and the sharp order of Gevrey class of the semigroup associated with the system. Especially, we propose a clear relationship between the choice of parameters and the decay rates (or the orders of Gevrey class) for the system. Our analysis complements the stability analysis of the system previously discussed in [6], which was restricted to the region {(α,β,γ)|0<α≤[Formula presented],0≤β≤1,[Formula presented]≤γ≤2}. We extend the analysis to the high order coupling case where α>[Formula presented] and also add the region 0<γ<[Formula presented]. A complete analysis for the decay rate and regularity of the system is given. We also provide some examples to illuminate our results.

Original languageEnglish (US)
Article number128646
JournalJournal of Mathematical Analysis and Applications
Volume540
Issue number2
DOIs
StatePublished - Dec 15 2024

Bibliographical note

Publisher Copyright:
© 2024 Elsevier Inc.

Keywords

  • Gevrey class
  • Polynomial stability
  • Regularity of semigroup
  • Spectrum

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