We study the nonlinear damped wave equation with a linear pumping and a convective nonlinearity. We consider the solutions, which satisfy the periodic boundary conditions. Our aim is to prove global existence of solutions to the periodic problem for the nonlinear damped wave equation by applying the energy‐type estimates and estimates for the Green operator. Moreover, we study the asymptotic profile of global solutions.
We study the large time asymptotics of solutions to the Cauchy problem for the fractional modified Korteweg-de Vries equation $$\begin{aligned} \left\{ \begin{array}{l} \partial _{t}w+\frac{1}{\alpha }\left| \partial _{x}\right| ^{\alpha -1}\partial _{x}w=\partial _{x}\left( w^{3}\right) ,\text { }t>0,\, x\in {\mathbb {R}}\textbf{,}\\ w\left( 0,x\right) =w_{0}\left( x\right) ,\,x\in {\mathbb {R}} \textbf{,} \end{array} \right. \end{aligned}$$ ∂ t w + 1 α ∂ x α - 1 ∂ x w = ∂ x w 3 , t > 0 , x ∈ R , w 0 , x = w 0 x , x ∈ R , where $$\alpha \in \left[ 4,5\right) ,$$ α ∈ 4 , 5 , and $$\left| \partial _{x}\right| ^{\alpha }={\mathcal {F}}^{-1}\left| \xi \right| ^{\alpha }{\mathcal {F}}$$ ∂ x α = F - 1 ξ α F is the fractional derivative. The case of $$\alpha =3$$ α = 3 corresponds to the classical modified KdV equation. In the case of $$\alpha =2$$ α = 2 it is the modified Benjamin–Ono equation. Our aim is to find the large time asymptotic formulas for the solutions of the Cauchy problem for the fractional modified KdV equation. We develop the method based on the factorization techniques which was started in our previous papers. Also we apply the known results on the $${\textbf{L}}^{2}$$ L 2 —boundedness of pseudodifferential operators.
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