100 research outputs found

    Blow-up for the Porous Media Equation with Source Term and Positive Initial Energy

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    AbstractWe study the Cauchy–Dirichlet problem for the porous media equation with nonlinear source term in a bounded subset of Rn. The problem describes the propagation of thermal perturbations in a medium with a nonlinear heat-conduction coefficient and a heat source depending on the temperature. The aim of the paper is to extend the unstable set to a part of the positive energy region, a phenomenon which was known only for linear conduction

    Nontrivial solutions for the Laplace equation with a nonlinear Goldstein-Wentzell boundary condition

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    The paper deals with the existence and multiplicity of nontrivial solutions for the doubly elliptic problem {Δu=0in Ω,u=0on Γ0,ΔΓu+νu=up2uon Γ1,\begin{cases} \Delta u=0 \qquad &\text{in $\Omega$,}\\ u=0 &\text{on $\Gamma_0$,}\\ -\Delta_\Gamma u +\partial_\nu u =|u|^{p-2}u\qquad &\text{on $\Gamma_1$,} \end{cases} where Ω\Omega is a bounded open subset of RN\mathbb{R}^N (N2N\ge 2) with C1C^1 boundary Ω=Γ0Γ1\partial\Omega=\Gamma_0\cup\Gamma_1, Γ0Γ1=\Gamma_0\cap\Gamma_1=\emptyset, Γ1\Gamma_1 being nonempty and relatively open on Γ\Gamma, HN1(Γ0)>0\mathcal{H}^{N-1}(\Gamma_0)>0 and p>2p>2 being subcritical with respect to Sobolev embedding on Ω\partial\Omega. We prove that the problem admits nontrivial solutions at the potential--well depth energy level, which is the minimal energy level for nontrivial solutions. We also prove that the problem has infinitely many solutions at higher energy levels

    The Damped Wave Equation with Acoustic Boundary Conditions and Non-locally Reacting Surfaces

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    The aim of the paper is to study the problem utt+dutc2Δu=0in R×Ω,u_{tt}+du_t-c^2\Delta u=0 \qquad \text{in $\mathbb{R}\times\Omega$,} μvttdivΓ(σΓv)+δvt+κv+ρut=0on R×Γ1,\mu v_{tt}- \text{div}_\Gamma (\sigma \nabla_\Gamma v)+\delta v_t+\kappa v+\rho u_t =0\qquad \text{on $\mathbb{R}\times \Gamma_1$,} vt=νuon R×Γ1,v_t =\partial_\nu u\qquad \text{on $\mathbb{R}\times \Gamma_1$,} νu=0on R×Γ0,\partial_\nu u=0 \text{on $\mathbb{R}\times \Gamma_0$,} u(0,x)=u0(x),ut(0,x)=u1(x)in Ω,u(0,x)=u_0(x),\quad u_t(0,x)=u_1(x)\quad \text{in $\Omega$,} v(0,x)=v0(x),vt(0,x)=v1(x)on Γ1,v(0,x)=v_0(x),\quad v_t(0,x)=v_1(x) \quad \text{on $\Gamma_1$,} where Ω\Omega is a open domain of RN\mathbb{R}^N with uniformly CrC^r boundary (N2N\ge 2, r1r\ge 1), Γ=Ω\Gamma=\partial\Omega, (Γ0,Γ1)(\Gamma_0,\Gamma_1) is a relatively open partition of Γ\Gamma with Γ0\Gamma_0 (but not Γ1\Gamma_1) possibly empty. Here divΓ\text{div}_\Gamma and Γ\nabla_\Gamma denote the Riemannian divergence and gradient operators on Γ\Gamma, ν\nu is the outward normal to Ω\Omega, the coefficients μ,σ,δ,κ,ρ\mu,\sigma,\delta, \kappa, \rho are suitably regular functions on Γ1\Gamma_1 with ρ,σ\rho,\sigma and μ\mu uniformly positive, dd is a suitably regular function in Ω\Omega and cc is a positive constant. In this paper we first study well-posedness in the natural energy space and give regularity results. Hence we study asymptotic stability for solutions when Ω\Omega is bounded, Γ1\Gamma_1 is connected, r=2r=2, ρ\rho is constant and κ,δ,d0\kappa,\delta,d\ge 0.Comment: The paper also extends some results in arXiv:2105.0921

    Klein-Gordon-Maxwell equations driven by mixed local-nonlocal operators

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    Classical results concerning Klein-Gordon-Maxwell type systems are shortly reviewed and generalized to the setting of mixed local-nonlocal operators, where the nonlocal one is allowed to be nonpositive definite according to a real parameter. In this paper, we provide a range of parameter values to ensure the existence of solitary (standing) waves, obtained as Mountain Pass critical points for the associated energy functionals in two different settings, by considering two different classes of potentials: constant potentials and continuous, bounded from below, and coercive potentials.Comment: 26 pages, 2 figure

    Schr\"odinger-Maxwell equations driven by mixed local-nonlocal operators

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    In this paper we prove existence of solutions to Schr\"odinger-Maxwell type systems involving mixed local-nonlocal operators. Two different models are considered: classical Schr\"odinger-Maxwell equations and Schr\"odinger-Maxwell equations with a coercive potential, and the main novelty is that the nonlocal part of the operator is allowed to be nonpositive definite according to a real parameter. We then provide a range of parameter values to ensure the existence of solitary standing waves, obtained as Mountain Pass critical points for the associated energy functionals.Comment: arXiv admin note: text overlap with arXiv:2303.1166

    Heat equation with dynamical boundary conditions of reactive-diffusive type

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    This paper deals with the heat equation posed in a bounded regular domain coupled with a dynamical boundary condition of reactive-diffusive type, involving the Laplace-Beltrami operator. We prove well-posedness of the problem together with regularity of the solutions.Comment: 18 page
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