Il problema di Stefan con condizioni al contorno non lineari
Improved estimates for the Ginzburg-Landau equation : the elliptic case
We derive estimates for various quantities which are of interest in the analysis of the Ginzburg-Landau equation, and which we bound in terms of the -energy and the parameter . These estimates are local in nature, and in particular independent of any boundary condition. Most of them improve and extend earlier results on the subject.
Indirect stabilization of locally coupled wave-type systems
We study in an abstract setting the indirect stabilization of systems of two wave-like equations coupled by a localized zero order term. Only one of the two equations is directly damped. The main novelty in this paper is that the coupling operator is not assumed to be coercive in the underlying space. We show that the energy of smooth solutions of these systems decays polynomially at infinity, whereas it is known that exponential stability does not...
Indirect stabilization of locally coupled wave-type systems
We study in an abstract setting the indirect stabilization of systems of two wave-like equations coupled by a localized zero order term. Only one of the two equations is directly damped. The main novelty in this paper is that the coupling operator is not assumed to be coercive in the underlying space. We show that the energy of smooth solutions of these systems decays polynomially at infinity, whereas it is known that exponential stability does not...
Inertial manifolds and stabilization of nonlinear beam equations with Balakrishnan-Taylor damping.
Inertial manifolds for retarded second order in time evolution equations in admissible spaces
Using the Lyapunov-Perron method, we prove the existence of an inertial manifold for the process associated to a class of non-autonomous semilinear hyperbolic equations with finite delay, where the linear principal part is positive definite with a discrete spectrum having a sufficiently large distance between some two successive spectral points, and the Lipschitz coefficient of the nonlinear term may depend on time and belongs to some admissible function spaces.
Initial boundary value problem for a system in elastodynamics with viscosity.
Initial Value Problems in Lp for Systems with Variable Coefficients.
Initial-boundary value problems describing mobile carrier transport in semiconductor devices
Instabilities in a reaction diffusion model: spatially homogeneous and distributed systems.
Interaction contrôlée dans les équations aux dérivées partielles non linéaires
Interaction d'ondes simples pour des équations complètement non-linéaires
Interior Hölder estimates for solutions of Schrödinger equations and the regularity of nodal sets
Intermittency on catalysts: symmetric exclusion.
Invariant manifolds and almost automorphic solutions of second-order monotone equations
Invariant manifolds for one-dimensional parabolic partial differential equations of second order
Invariant regions and global existence of solutions for reaction-diffusion systems with a tridiagonal matrix of diffusion coefficients and nonhomogeneous boundary conditions.
Invariant sets of solutions of Navier-Stokes and related evolution equations - A survey
Invariants, conservation laws and time decay for a nonlinear system of Klein-Gordon equations with Hamiltonian structure
We discuss invariants and conservation laws for a nonlinear system of Klein-Gordon equations with Hamiltonian structure ⎧, ⎨ ⎩ for which there exists a function F(λ,μ) such that ∂F(λ,μ)/∂λ = F₁(λ,μ), ∂F(λ,μ)/∂μ = F₂(λ,μ). Based on Morawetz-type identity, we prove that solutions to the above system decay to zero in local L²-norm, and local energy also decays to zero if the initial energy satisfies , and F₁(|u|²,|v|²)|u|² + F₂(|u|²,|v|²)|v|² - F(|u|²,|v|²) ≥ aF(|u|²,|v|²) ≥ 0, a > 0.
Inverses d'opérateurs faiblement hyperboliques à caractéristiques de multiplicité variable dans la classe des opérateurs de Volterra