Ruy Coimbra Charao, Alessandra Piske, Ryo Ikehata
Published 2021-04-17Version 1
We introduce a new model of the logarithmic type of wave like plate equation with a nonlocal logarithmic damping mechanism. We consider the Cauchy problem for this new model in the whole space, and study the asymptotic profile and optimal decay rates of solutions as time goes to infinity in L^{2}-sense. The operator L considered in this paper was first introduced to dissipate the solutions of the wave equation in the paper studied by Charao-Ikehata in 2020. We will discuss the asymptotic property of the solution as time goes to infinity to our Cauchy problem, and in particular, we classify the property of the solutions into three parts from the viewpoint of regularity of the initial data, that is, diffusion-like, wave-like, and both of them.
A dissiptive logarithmic type evolution equation: asymptotic profile and optimal estimates
Asymptotic profiles for the Cauchy problem of damped beam equation with two variable coefficients and derivative nonlinearity
Asymptotic profiles for a wave equation with parameter dependent logarithmic damping
![QR code for arXiv:2104.08468 [math.AP]](http://oss.arxitics.com/images/favicon.svg)