Smoothing effect and asymptotic dynamics of nonautonomous parabolic equations with time-dependent linear operators

In this paper we consider the nonautonomous semilinear parabolic problems with time-dependent linear operatorsut+A(t)u=f(t,u),  t>τ;u(τ)=u0, in a Banach space X. Under suitable conditions, we obtain regularity results for ut(t,x) with respect to its spatial variable x and estimates for ut in stro...

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Bibliographic Details
Published in:Journal of Differential Equations 2022-03, Vol.314, p.808-849
Main Authors: Belluzi, Maykel, Caraballo, Tomás, Nascimento, Marcelo J.D., Schiabel, Karina
Format: Article
Language:English
Subjects:
Asymptotic dynamics
Nonautonomous parabolic problems
Regularization
Smoothing effect
Time-dependent linear operators
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Summary:In this paper we consider the nonautonomous semilinear parabolic problems with time-dependent linear operatorsut+A(t)u=f(t,u),  t>τ;u(τ)=u0, in a Banach space X. Under suitable conditions, we obtain regularity results for ut(t,x) with respect to its spatial variable x and estimates for ut in stronger spaces (Xα). We then apply those results to a nonautonomous reaction-diffusion equationut−div(a(t,x)∇u)+u=f(t,u) with Neumann boundary condition and time-dependent diffusion. From the regularity of ut we derive the existence of classical solutions and from the estimates for ut we prove that the variation of the solution u is bounded in the long-time dynamics. We also prove the existence of pullback attractor, as well as the existence of a compact set that contains the long-time dynamics of the derivatives ut, without requiring any assumption concerning monotonicity or decay in time of a(t,x).
ISSN:0022-0396
1090-2732
DOI:10.1016/j.jde.2022.01.030