Global existence and finite-time blowup for a mixed pseudo-parabolic r(x)-Laplacian equation

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-01-01 DOI:10.1515/anona-2023-0133
Jiazhuo Cheng, Qiru Wang
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Abstract

This article is devoted to the study of the initial boundary value problem for a mixed pseudo-parabolic r ( x ) r\left(x) -Laplacian-type equation. First, by employing the imbedding theorems, the theory of potential wells, and the Galerkin method, we establish the existence and uniqueness of global solutions with subcritical initial energy, critical initial energy, and supercritical initial energy, respectively. Then, we obtain the decay estimate of global solutions with sub-sharp-critical initial energy, sharp-critical initial energy, and supercritical initial energy, respectively. For supercritical initial energy, we also need to analyze the properties of ω \omega -limits of solutions. Finally, we discuss the finite-time blowup of solutions with sub-sharp-critical initial energy and sharp-critical initial energy, respectively.
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混合伪抛物线 r(x)-Laplacian 方程的全局存在性和有限时间膨胀
本文主要研究混合伪抛物线 r ( x ) r\left(x) -拉普拉斯型方程的初边界值问题。首先,利用嵌入定理、势井理论和 Galerkin 方法,分别建立了亚临界初值能量、临界初值能量和超临界初值能量全局解的存在性和唯一性。然后,我们分别得到了亚临界初能、锐临界初能和超临界初能全局解的衰减估计值。对于超临界初能,我们还需要分析解的ω \omega -极限的性质。最后,我们将分别讨论亚锐临界初能和锐临界初能的解的有限时间炸毁问题。
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CiteScore
7.20
自引率
4.30%
发文量
567
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