On the decay rate of solutions of the Bresse system with Gurtin-Pipkin thermal law

Asymptot. Anal. Pub Date : 2017-01-01 DOI:10.3233/ASY-171417

Maisa Khader, B. Houari

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引用次数: 10

Abstract

We consider the Cauchy problem for the one-dimensional Bresse system coupled with the heat conduction, wherein the latter is described by the Gurtin–Pipkin thermal law. We study the decay properties of the solution using the energy method in the Fourier space (to build an appropriate Lyapunov functional) accompanied with some integral estimates. In fact we prove that the dissipation induced by the heat conduction is very weak and produces very slow decay rates. In addition in some cases, those decay rates are of regularity-loss type. Also, we prove that there is a number (depending on the parameters of the system) that controls the decay rate of the solution and the regularity assumptions on the initial data. In addition, we show that in the absence of the frictional damping, the memory damping term is not strong enough to produce a decay rate for the solution. In fact, we show in this case, despite the fact that the energy is still dissipative, the solution does not decay at all. This result improves and extends several results, such as those in Appl. Math. Optim. (2016), to appear, Communications in Contemporary Mathematics 18(4) (2016), 1550045, Math. Methods Appl. Sci. 38(17) (2015), 3642–3652 and others.

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用Gurtin-Pipkin热定律研究Bresse体系溶液的衰减速率

我们考虑一维布雷斯系统耦合热传导的柯西问题，其中热传导由Gurtin-Pipkin热定律描述。我们使用傅里叶空间中的能量方法研究了解的衰减性质(以建立适当的Lyapunov泛函)，并伴有一些积分估计。事实上，我们证明了由热传导引起的耗散是非常弱的，并且产生非常慢的衰减速率。此外，在某些情况下，这些衰减率是规则损失型的。此外，我们证明了存在一个数字(取决于系统的参数)来控制解的衰减率和初始数据的正则性假设。此外，我们表明，在没有摩擦阻尼的情况下，记忆阻尼项不足以产生解的衰减率。事实上，在这种情况下，我们证明，尽管能量仍然是耗散的，溶液一点也不衰减。这个结果改进并扩展了几个结果，例如apple中的结果。数学。Optim。(2016)，出现，当代数学通讯18(4)(2016)，1550045，数学。方法:。科学38(17)(2015)，3642-3652等。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asymptot. Anal.

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