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830 results on '"Caraballo, Tomás"'

1. Dynamics and large deviations for fractional stochastic partial differential equations with L\'evy noise

Author

Xu, Jiaohui, Caraballo, Tomás, and Valero, José

Subjects
Mathematics - Probability, 35R11, 35Q30, 65F08, 60H15, 65F10
Abstract

This paper is mainly concerned with a kind of fractional stochastic evolution equations driven by L\'evy noise in a bounded domain. We first state the well-posedness of the problem via iterative approximations and energy estimates. Then, the existence and uniqueness of weak pullback mean random attractors for the equations {are} established by defining a mean random dynamical system. Next, we prove the existence of invariant measures when the problem is autonomous by means of the fact that $H^\gamma(\mathcal{O})$ is compactly embedded in $L^2(\mathcal{O})$ with $\gamma\in (0,1)$. Moreover, the uniqueness of this invariant measure is presented which ensures the ergodicity of the problem. Finally, a large deviation principle result for solutions of SPDEs perturbed by small L\'evy noise and Brownian motion is obtained by a variational formula for positive functionals of a Poisson random measure and Brownian motion. Additionally, the results are illustrated by the fractional stochastic Chafee-Infante equations

Published
2025
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2. Dynamics and Wong-Zakai approximations of stochastic nonlocal PDEs with long time memory

Author

Xu, Jiaohui, Caraballo, Tomás, and Valero, José

Subjects
Mathematics - Dynamical Systems, Mathematics - Probability
Abstract

In this paper, a combination of Galerkin's method and Dafermos' transformation is first used to prove the existence and uniqueness of solutions for a class of stochastic nonlocal PDEs with long time memory driven by additive noise. Next, the existence of tempered random attractors for such equations is established in an appropriate space for the analysis of problems with delay and memory. Eventually, the convergence of solutions of Wong-Zakai approximations and upper semicontinuity of random attractors of the approximate random system, as the step sizes of approximations approach zero, are analyzed in a detailed way.

Published
2025
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3. Asymptotic behavior of a semilinear problem in heat conduction with long time memory and non-local diffusion

Author

Xu, Jiaohui, Caraballo, Tomás, and Valero, José

Subjects
Mathematics - Analysis of PDEs, Mathematics - Dynamical Systems, 35B40, 35K05, 37L30, 45K05
Abstract

In this paper, the asymptotic behavior of a semilinear heat equation with long time memory and non-local diffusion is analyzed in the usual set-up for dynamical systems generated by differential equations with delay terms. This approach is different from the previous published literature on the long time behavior of heat equations with memory which is carried out by the Dafermos transformation. As a consequence, the obtained results provide complete information about the attracting sets for the original problem, instead of the transformed one. In particular, the proved results also generalize and complete previous literature in the local case.

Published
2024
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7. A delay nonlocal quasilinear Chafee-Infante problem: An approach via semigroup theory

Author

Caraballo, Tomás, Carvalho, A. N., and Julio, Yessica

Subjects
Mathematics - Analysis of PDEs, 35Q30, 35B41, 35K58, 76D05
Abstract

In this work we study a dissipative one dimensional scalar parabolic problem with non-local nonlinear diffusion with delay. We consider the general situation in which the functions involved are only continuous and solutions may not be unique. We establish conditions for global existence and prove the existence of global attractors. All results are presented only in the autonomous since the non-autonomous case follows in the same way, including the existence of pullback attractors. A particularly interesting feature is that there is a semilinear problem (nonlocal in space and in time) from which one can obtain all solutions of the associated quasilinear problem and that for this semilinear problem the delay depends on the initial function making its study more involved., Comment: 16 pages

Published
2024

8. Existence, regularity and asymptotic behavior of solutions for a nonlocal Chafee-Infante Problem via semigroup theory

Author

Caraballo, Tomás, Carvalho, A. N., and Julio, Yessica

Subjects
Mathematics - Analysis of PDEs, 35Q30, 35B41, 35K58, 76D05
Abstract

This article deals with the study of a non-local one-dimensional quasilinear problem with continuous forcing. We use a time-reparameterization to obtain a semilinear problem and study a more general equation using semigroup theory. The existence of mild solutions is established without uniqueness with the aid of the formula of variation of constants and asking only a suitable modulus of continuity on the nonlinearity this mild solution is shown to be strong. Comparison results are also established with the aid of the formula of variation of constants and using these comparison results, global existence is obtained with the additional requirement that the nonlinearity satisfy a structural condition. The existence of pullback attractor is also established for the associated multivalued process along with the uniform bounds given by the comparison results with the additional requirement that the nonlinearity be dissipative. As much as possible the results are abstract so that they can be also applied to other models., Comment: 24 pages

Published
2024

9. Exponential attractors for a nonlocal delayed reaction-diffusion equation on an unbounded domain

Author

Hu, Wenjie and Caraballo, Tomás

Subjects
Mathematics - Analysis of PDEs
Abstract

The main objective of this paper is to investigate exponential attractors for a nonlocal delayed reaction-diffusion equation on an unbounded domain. We first obtain the existence of a globally attractive absorbing set for the dynamical system generated by the equation under the assumption that the nonlinear term is bounded. Then, we construct exponential attractors of the equation directly in its natural phase space, i.e., a Banach space with explicit fractal dimension by combining squeezing properties of the system as well as a covering lemma of finite subspace of Banach spaces. Our result generalizes the methods established in Hilbert spaces and weighted spaces, and the fractal dimension of the obtained exponential attractor does not depend on the entropy number but only depends on some inner characteristic of the studied equation.

Published
2024

10. Generalized exponential pullback attractor for a nonautonomous wave equation

Author

Bortolan, Matheus C., Caraballo, Tomas, and Neto, Carlos Pecorari

Subjects
Mathematics - Dynamical Systems, Mathematics - Analysis of PDEs, 35B41, 35L20, 37L25
Abstract

In this work we introduce the concept of generalized exponential $\mathfrak{D}$-pullback attractor for evolution processes, where $\mathfrak{D}$ is a universe of families in $X$, which is a compact and positively invariant family that pullback attracts all elements of $\mathfrak{D}$ with an exponential rate. Such concept was introduced in arXiv:2311.15630 for the general case of decaying functions (which include the exponential decay), but for fixed bounded sets rather than to universe of families. We prove a result that ensures the existence of a generalized exponential $\mathfrak{D}_{\mathcal{C}^\ast}$-pullback attractor for an evolution process, where $\mathfrak{D}_{\mathcal{C}^\ast}$ is a specific universe. This required an adaptation of the results of arXiv:2311.15630, which only covered the case of a polynomial rate of attraction, for fixed bounded sets. Later, we prove that a nonautonomous wave equation has a generalized exponential $\mathfrak{D}_{\mathcal{C}^\ast}$-pullback attractor. This, in turn, also implies the existence of the $\mathfrak{D}_{\mathcal{C}^\ast}$-pullback attractor for such problem., Comment: 18 pages. arXiv admin note: substantial text overlap with arXiv:2311.15630

Published
2024

11. Existence and dimensions of global attractors for a delayed reaction-diffusion equation on an unbounded domain

Author

Hu, Wenjie, Caraballo, Tomás, and Miranville, Alain

Subjects
Mathematics - Analysis of PDEs, Mathematics - Dynamical Systems
Abstract

The purpose of this paper is to investigate the existence and Hausdorff dimension as well as fractal dimension of global attractors for a delayed reaction-diffusion equation on an unbounded domain. The noncompactness of the domain causes the Laplace operator has a continuous spectrum, the semigroup generated by the linear part and the Sobolev embeddings are no longer compact, making the problem more difficult compared with the equations on bounded domains. We first obtain the existence of an absorbing set for the infinite dimensional dynamical system generated by the equation by a priori estimate of the solutions. Then, we show the asymptotic compactness of the solution semiflow by an uniform a priori estimates for far-field values of solutions together with the Arzel\`a-Ascoli theorem, which facilitates us to show the existence of global attractors. By decomposing the solution into three parts and establishing a squeezing property of each part, we obtain the explicit upper estimation of both Hausdorff and fractal dimension of the global attractors, which only depend on the inner characteristic of the equation, while not related to the entropy number compared with the existing literature.

Published
2023

16. Convergence of solutions for a reaction-diffusion problem with fractional Laplacian

Author

Xu, Jiaouhui, Caraballo, Tomás, and Valero, José

Subjects
Mathematics - Analysis of PDEs, 35R11, 35A15, 35B41, 35K65
Abstract

A kind of nonlocal reaction-diffusion equations on an unbounded domain containing fractional Laplacian operator is analyzed. To be precise, we prove the convergence of solutions of the equation governed by the fractional Laplacian to the solutions of the classical equation governed by the standard Laplacian, when the fractional parameter grows to 1. The existence of global attractors is investigated as well. The novelty of this paper is concerned with the convergence of solutions when the fractional parameter varies, which, as far as the authors are aware, seems to be the first result of this kind of problems in the literature.

Published
2023

17. Exponential attractors with explicit fractal dimensions for retarded functional differential equations

Author

Hu, Wenjie and Caraballo, Tomás

Subjects
Mathematics - Dynamical Systems
Abstract

The aim of this paper is to propose a new method to construct exponential attractors for infinite dimensional dynamical systems in Banach spaces with explicit fractal dimension. The approach is established by combing the squeezing properties and the covering of finite subspace of Banach spaces, which generalize the method established in Hilbert spaces. The constructed exponential attractors possess explicit fractal dimensions which do not depend on the entropy number but only depend on the spectrum of the linear part and Lipschitz constant of the nonlinear part. The method is especially effective for functional differential equations in Banach spaces for which sate decomposition of the linear part can be adopted to prove squeezing property. The theoretical results are applied to the retarded functional differential equation and retarded reaction-diffusion equations., Comment: arXiv admin note: substantial text overlap with arXiv:2303.04094

Published
2023

18. Lyapunov exponents and invariant manifolds for stochastic linear partial functional differential equations

Author

Hu, Wenjie and Caraballo, Tomás

Subjects
Mathematics - Dynamical Systems
Abstract

The main purpose of this work is to characterize the almost sure local structure stability of solutions to a class of linear stochastic partial functional differential equations (SPFDEs) by investigating the Lyapunov exponents and invariant manifolds near the stationary point. It is firstly proved that the trajectory field of the stochastic delayed stochastic partial functional differential equation admits an almost sure continuous version which is compact for $t>\tau$ by a delicate construction based on the random semiflow generated by the diffusion term. Then it is proved that the version generates a random dynamical system(RDS) by the Wong-Zakai approximation of the stochastic partial differential equation constructed by the diffusion term. Subsequently, it is shown that the constructed linear cocycle admits fixed (at most) countable set of Lyapunov exponents and the associate Oseledets random filtration of the Banach space is obtained by adopting the infinite-dimensional multiplicative ergodic theorem in Banach spaces established by Lian and Lu [\textit{Mem Amer Math Soc, 2010, 206: 967}]. As a by product, the stable-manifolds theorem for the linear SPFDE in the hyperbolic case is also established., Comment: The paper needs to be revised

Published
2023

19. Topological dimensions of attractors for partial functional differential equations in Banach spaces

Author

Hu, Wenjie and Caraballo, Tomás

Subjects
Mathematics - Dynamical Systems
Abstract

The main objective of this paper is to obtain estimations of Hausdorff dimension as well as fractal dimension of global attractors and pullback attractors for both autonomous and nonautonomous functional differential equations (FDEs) in Banach spaces. New criterions for the finite Hausdorff dimension and fractal dimension of attractors in Banach spaces are firslty proposed by combining the squeezing property and the covering of finite subspace of Banach spaces, which generalize the method established in Hilbert spaces. In order to surmount the barrier caused by the lack of orthogonal projectors with finite rank, which is the key tool for proving the squeezing property of partial differential equations in Hilbert spaces, we adopt the state decomposition of phase space based on the exponential dichotomy of the studied FDEs to obtain similar squeezing property. The theoretical results are applied to a retarded nonlinear reaction-diffusion equation and a non-autonomous retarded functional differential equation in the natural phase space, for which explicit bounds of dimensions that do not depend on the entropy number but only depend on the spectrum of the linear parts and Lipschitz constants of the nonlinear parts are obtained.

Published
2023

20. Topological dimensions of global attractors for a delayed reaction-diffusion equation on an unbounded domain

Author

Hu, Wenjie and Caraballo, Tomás

Subjects
Mathematics - Dynamical Systems
Abstract

The purpose of this paper is to investigate the existence and estimation of Hausdorff and fractal dimension of global attractors for a delayed reaction-diffusion equation on an unbounded domain. The noncompactness of the domain cause the Laplace operator has a continuous spectrum, the semigroup generated by the linear part and the Sobolev embeddings no longer compact, making the problem more difficult compared with the equation on bounded domain. In order to adopt Hausdorff and fractal dimension dimension estimation tools established for dynamical systems in Hilbert space, we recast the equation in an auxiliary Hilbert space. We first obtain the existence of global solutions on unbounded domain by a perturbation semigroup approach which generates an infinite dimensional dynamical system. Then, we show the existence of global attractors by firstly showing the existence of an absorbing set and then give a an uniform a priori estimates for far-field values of solutions which facilitate us to prove the asymptotic compactness of the generated dynamical system. After establishing the variational equation in the auxiliary Hilbert space and the differentiable properties of the generated dynamical system, the upper estimate of both Hausdorff and fractal dimensions of the global attractors is obtained., Comment: Needs to be revised

Published
2023

21. Topological dimensions of random attractors for stochastic partial differential equations with delay

Author

Hu, Wenjie and Caraballo, Tomás

Subjects
Mathematics - Probability, Mathematics - Dynamical Systems
Abstract

The aim of this paper is to obtain an estimation of Hausdorff as well as fractal dimensions of random attractors for a class of stochastic partial differential equations with delay. The stochastic equation is first transformed into a delayed random partial differential equation by means of a random conjugation, which is then recast into an auxiliary Hilbert space. For the obtained equation, it is firstly proved that it generates a random dynamical system (RDS) in the auxiliary Hilbert space. Then it is shown that the equation possesses random attractors by a uniform estimate of the solution and the asymptotic compactness of the generated RDS. After establishing the variational equation in the auxiliary Hilbert space and the $\mathbb{P}$ almost surely differentiable properties of the RDS, an upper estimate of both Hausdorff and fractal dimensions of the random attractors are obtained.

Published
2023

22. Random attractors for a stochastic nonlocal delayed reaction-diffusion equation on a semi-infinite interval

Author

Hu, Wenjie, Zhu, Quanxin, and Caraballo, Tomás

Subjects
Mathematics - Dynamical Systems
Abstract

The aim of this paper is to prove the existence and qualitative property of random attractors for a stochastic nonlocal delayed reaction-diffusion equation (SNDRDE) on a semi-infinite interval with a Dirichlet boundary condition on the finite end. This equation models the spatial-temporal evolution of the mature individuals for a two-stage species whose juvenile and adults both diffuse that lives on a semi-infinite domain and subject to random perturbations. By transforming the SNDRDE into a random evolution equation with delay, by means of a stationary conjugate transformation, we first establish the global existence and uniqueness of solutions to the equation, after which we show the solutions generate a random dynamical system. Then, we deduce uniform a priori estimates of the solutions and show the existence of bounded random absorbing sets. Subsequently, we prove the pullback asymptotic compactness of the random dynamical system generated by the SNDRDE with respect to the compact open topology, and hence obtain the existence of random attractors. At last, it is proved that the random attractor is an exponentially attracting stationary solution under appropriate conditions.

Published
2023

23. Invariant manifolds for stochastic delayed partial differential equations of parabolic type

Author

Hu, Wenjie, Zhu, Quanxin, and Caraballo, Tomás

Subjects
Mathematics - Dynamical Systems, Mathematics - Probability
Abstract

The aim of this paper is to prove the existence and smoothness of stable and unstable invariant manifolds for a stochastic delayed partial differential equation of parabolic type. The stochastic delayed partial differential equation is firstly transformed into a random delayed partial differential equation by a conjugation, which is then recast into a Hilbert space. For the auxiliary equation, the variation of constants formula holds and we show the existence of Lipschitz continuous stable and unstable manifolds by the Lyapunov-Perron method. Subsequently, we prove the smoothness of these invariant manifolds under appropriate spectral gap condition by carefully investigating the smoothness of auxiliary equation, after which, we obtain the invariant manifolds of the original equation by projection and inverse transformation. Eventually, we illustrate the obtained theoretical results by their application to a stochastic single-species population model.

Published
2023

25. Long-time asymptotics of solutions and the modified pseudo-conformal conservation law for super-critical nonlinear Schr\'odinger equation

Author

Van Au, Vo, Caraballo, Tomas, and Tuan, Nguyen Huy

Subjects
Mathematics - Analysis of PDEs, 35B40, 35L65, 35Q55
Abstract

In this paper, we discuss a class of nonlinear Schr\"odinger equations with the power-type nonlinearity: $(\mathrm{i} \frac{\partial}{\partial t} + \Delta ) \psi = \lambda |\psi|^{2\eta}\psi$ in $\mathbf R^N \times \mathbf R^+$. Based on the Gagliardo-Nirenberg interpolation inequality, we prove the local existence and long-time behavior (continuation, finite-time blow-up or global existence, continuous dependence) of the solutions to the $(H^q)$ super-critical Schr\"odinger equation. The corresponding scaling invariant space is homogeneous Sobolev $\dot H^{q_{crit}}$ with $q_{crit} > q$. Based on the estimates of the quadratic terms containing the phase derivatives used in the paper by Killip, Murphy and Visan \cite[SIAM J. Math. Anal. 50(3) (2018), 2681--2739]{KMV018} we shall study the stability with a stronger bound on the solutions to our problem. Moreover, from the arguments on virial-types presented in the paper by Killip and Visan \cite[Amer. J. Math. 132(2) (2010), 361--424]{KV010}, a modified pseudo-conformal conservation law is proposed. The Morawetz estimate for the solutions to the problem are also presented.

Published
2022

28. Asymptotic stability of evolution systems of probability measures for nonautonomous stochastic systems: Theoretical results and applications

Author

Wang, Renhai, Caraballo, Tomas, and Tuan, Nguyen Huy

Subjects
Mathematics - Analysis of PDEs, Mathematics - Probability, 37L30, 37L40, 37L55, 35B40, 35B41, 60H10
Abstract

The limiting stability of invariant probability measures of time homogeneous transition semigroups for autonomous stochastic systems has been extensively discussed in the literature. In this paper we initially initiate a program to study the asymptotic stability of evolution systems of probability measures of time inhomogeneous transition operators for nonautonomous stochastic systems. A general theoretical result on this topic is established in a Polish space by establishing some sufficient conditions which can be verified in applications. Our abstract results are applied to a stochastic lattice reaction-diffusion equation driven by a time-dependent nonlinear noise. A time-average method and a mild condition on the time-dependent diffusion function are used to prove that the limit of every evolution system of probability measures must be an evolution system of probability measures of the limiting equation. The theoretical results are expected to be applied to various stochastic lattice systems/ODEs/PDEs in the future., Comment: 9 pages

Published
2022

31. Continuity and topological structural stability for nonautonomous random attractors

Author

Caraballo, Tomás, Carvalho, Alexandre N., Langa, José A., and Oliveira-Sousa, Alexandre N

Subjects
Mathematics - Dynamical Systems, Mathematics - Analysis of PDEs, 35R60, 35B41, 37L55, 35B41, 37B35
Abstract

In this work, we study continuity and topological structural stability of attractors for nonautonomous random differential equations obtained by small bounded random perturbations of autonomous semilinear problems. First, we study existence and permanence of unstable sets of hyperbolic solutions. Then, we use this to establish lower semicontinuity of nonautonomous random attractors and to show that the gradient structure persists under nonautonomous random perturbations. Finally, we apply the abstract results in a stochastic differential equation and in a damped wave equation with a perturbation on the damping.

Published
2021

32. On the initial value problem for a class of nonlinear biharmonic equation with time-fractional derivative

Author

Nguyen, Anh Tuan, Caraballo, Tomás, and Tuan, Nguyen Huy

Subjects
Mathematics - Analysis of PDEs, 26A33, 33E12, 35B40, 35K30, 35K58
Abstract

In this work, we investigate the IVP for a time-fractional fourth-order equation with nonlinear source terms. More specifically, we consider the time-fractional biharmonic with exponential nonlinearity and the time-fractional Cahn-Hilliard equation. By using the Fourier transform concept, the generalized formula for the mild solution as well as the smoothing effects of resolvent operators are proved. For the IVP associated with the first one, by using the Orlicz space with the function $ \Xi(z)=e^{|z|^p}-1$ and some embeddings between it and the usual Lebesgue spaces, we prove that the solution is a global-in-time solution or it shall blow up in a finite time if the initial value is regular. In the case of singular initial data, the local-in-time/global-in-time existence and uniqueness are derived. Also, the regularity of the mild solution is investigated. For the IVP associated with the second one, some modifications to the generalized formula are made to deal with the nonlinear term. We also establish some important estimates for the derivatives of resolvent operators, they are the basis for using the Picard sequence to prove the local-in-time existence of the solution., Comment: 25 pages

Published
2021

38. The effect of a small bounded noise on the hyperbolicity for autonomous semilinear differential equations

Author

Caraballo, Tomás, de Carvalho, Alexandre N., Langa, José A., and Oliveira-Sousa, Alexandre N.

Subjects
Mathematics - Analysis of PDEs, Mathematics - Dynamical Systems, 37B55, 37B99, 34D09, 93D09
Abstract

In this work we study permanence of hyperbolicity for autonomous differential equations under nonautonomous random/stochastic perturbations. For the linear case, we study robustness and existence of exponential dichotomies for nonautonomous random dynamical systems. Next, we establish a result on the persistence of hyperbolic equilibria for nonlinear differential equations. We show that for each nonautonomous random perturbation of an autonomous semilinear problem with a hyperbolic equilibrium there exists a bounded \textit{random hyperbolic solution} for the associated nonlinear nonautonomous random dynamical systems. Moreover, we show that these random hyperbolic solutions converge to the autonomous equilibrium. As an application, we consider a semilinear differential equation with a small nonautonomous multiplicative white noise, and as an example, we apply the abstract results to a strongly damped wave equation., Comment: 33 pages

Published
2020
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39. Pullback and uniform attractors for nonautonomous reaction-diffusion equation in Dumbbell domains

Author

Belluzi, Maykel, Caraballo, Tomás, Nascimento, Marcelo J. D., and Schiabel, Karina

Subjects
Mathematics - Analysis of PDEs, 37B55, 35B41, 35B40, 35K58, 35B09, 35B51
Abstract

This work is devoted to the study of the asymptotic behavior of nonautonomous reaction-diffusion equations in Dumbbell domains $\Omega_{\varepsilon} \subset \mathbb{R}^{N}$. Each $\Omega_{\varepsilon}$ is the union of a fixed open set $\Omega$ and a channel $R_{\varepsilon}$ that collapses to a line segment $R_0$ as $\varepsilon \rightarrow 0^{+}$. We first establish the global existence of solution for each problem by using two properties of the parabolic equation considered, which are the positivity of the solutions and comparison results for them. We prove the existence of pullback and uniform attractors and we obtain uniform bounds (in $\varepsilon$) for them., Comment: 29 pages, 1 figure

Published
2020

40. Permanence of nonuniform nonautonomous hyperbolicity for infinite-dimensional differential equations

Author

Caraballo, Tomás, Carvalho, Alexandre N., Langa, José Antonio, and Oliveira-Sousa, Alexandre N

Subjects
Mathematics - Analysis of PDEs, Mathematics - Dynamical Systems, 37B55, 37B99, 34D09, 93D09
Abstract

In this paper, we study stability properties of nonuniform hyperbolicity for evolution processes associated with differential equations in Banach spaces. We prove a robustness result of nonuniform hyperbolicity for linear evolution processes, that is, we show that the property of admitting a nonuniform exponential dichotomy is stable under perturbation. Moreover, we provide conditions to obtain uniqueness and continuous dependence of projections associated with nonuniform exponential dichotomies. We also present an example of evolution process in a Banach space that admits nonuniform exponential dichotomy and study the permanence of the nonuniform hyperbolicity under perturbation. Finally, we prove persistence of nonuniform hyperbolic solutions for nonlinear evolution processes under perturbations., Comment: 23 pages

Published
2020

47. Existence and regularity results for terminal value problem for nonlinear fractional wave equations

Author

Tuan, Nguyen Huy, Caraballo, Tomás, Ngoc, Tran Bao, and Zhou, Yong

Subjects
Mathematics - Analysis of PDEs
Abstract

We consider the terminal value problem (or called final value problem, initial inverse problem, backward in time problem) of determining the initial value, in a general class of time-fractional wave equations with Caputo derivative, from a given final value. We are concerned with the existence, regularity of solutions upon the terminal value. Under several assumptions on the nonlinearity, we address and show the well-posedness (namely, the existence, uniqueness, and continuous dependence) for the terminal value problem. Some regularity results for the mild solution and its derivatives of first and fractional orders are also derived. The effectiveness of our methods are showed by applying the results to two interesting models: Time fractional Ginzburg-Landau equation, and Time fractional Burgers equation, where time and spatial regularity estimates are obtained.

Published
2019

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