Well‐posedness of the Laplacian on manifolds with boundary and bounded geometry

Ammann, Bernd; Große, Nadine; Nistor, Victor

doi:10.1002/mana.201700408

Cited by 22 publications

(52 citation statements)

References 70 publications

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“…A Riemannian manifold with boundary is a urR manifold iff it has bounded geometry in the sense of Th. Schick [28] (also see [10], [11], [12], [17] for related definitions). Detailed proofs of these equivalences will be found in [9].…”

Section: Uniformly Regular Riemannian Manifoldsmentioning

confidence: 99%

Linear parabolic equations with strong boundary degeneration

Amann

2020

J Elliptic Parabol Equ

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As an application of the theory of linear parabolic differential equations on noncompact Riemannian manifolds, developed in earlier papers, we prove a maximal regularity theorem for nonuniformly parabolic boundary value problems in Euclidean spaces. The new feature of our result is the fact that-besides of obtaining an optimal solution theory-we consider the 'natural' case where the degeneration occurs only in the normal direction.2010 Mathematics Subject Classification. 35K65 35K45 53C44 Key words and phrases: Degenerate parabolic boundary value problems, Riemannian manifolds with bounded geometry.

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Section: Uniformly Regular Riemannian Manifoldsmentioning

confidence: 99%

Linear parabolic equations with strong boundary degeneration

Amann

2020

J Elliptic Parabol Equ

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“…For dimension two domains M , the Poincaré inequality for (M, A, g) is equivalent to the Poincaré inequality for (M, A, g 0 ) (same proof as the conformal invariance of the Laplacian in two dimensions). The Poincaré inequality of [5] then gives: Let P = P a satisfy the strong Legendre condition with all ∇ j a bounded. Then there exists η a,f > 0 such that, for |s| < η a,f and ℓ ∈ Z + , we have an isomorphism…”

Section: Examples We Include Some Basic Examplesmentioning

confidence: 99%

“…Let ∂ a ν be the conormal derivative associated to P , see [14]. Combining Theorem 6 with the Lax-Milgram Lemma and with the fact that the Dirichlet and Neumann boundary conditions satify the uniform Shapiro-Lopatinski regularity conditions [5,14], we obtain: Theorem 8. We assume that (M, ∂ 0 M, E, g 0 , ρ) satisfies the Hardy-Poincaré inequality.…”

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confidence: 92%

“…Assume that H carries a globally defined unit normal vector field ν and let exp ⊥ (x, t) := exp M x (tν x ) be the exponential in the direction of the chosen unit normal vector. By II H we denote the second fundamental form of H. The following two definitions are from [5]. Definition 1.…”

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confidence: 99%

“…Let P be a second order differential operator. We assume from now on that we are given a partition of the boundary ∂M = ∂ 0 M ⊔ ∂ 1 M into two disjoint, open subsets, as in [5], and order i differential boundary conditions B i on ∂ i M . See, for example, [7,20] for general results on boundary value problems on smooth domains, [11,18,23,22] for the case of non-smooth domains, and [4,14] for more general boundary conditions involving projections.…”

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confidence: 99%

See 2 more Smart Citations

Analysis and boundary value problems on singular domains: An approach via bounded geometry

Ammann

Große

Nistor

2019

Comptes Rendus. Mathématique

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We prove well-posedness and regularity results for elliptic boundary value problems on certain singular domains that are conformally equivalent to manifolds with boundary and bounded geometry. Our assumptions are satisfied by the domains with a smooth set of singular cuspidal points, and hence our results apply to the class of domains with isolated oscillating conical singularities. In particular, our results generalize the classical L 2 -well-posedness result of Kondratiev for the Laplacian on domains with conical points. However, our domains and coefficients are too general to allow for singular function expansions of the solutions similar to the ones in Kondratiev's theory. The proofs are based on conformal changes of metric, on the differential geometry of manifolds with boundary and bounded geometry, and on our earlier geometric and analytic results on such manifolds.

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Existence and nonexistence of solutions to cone elliptic equations via Galerkin method

Nguyen

Thang

2021

Mathematische Nachrichten

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Based on singular analysis on manifolds with conical singularities, we establish the existence and nonexistence of solutions for a class of semilinear degenerate elliptic problems on conic manifolds with boundary by utilizing Galerkin method. K E Y W O R D Scone degenerate elliptic equations, domain of closed extensions, Galerkin's methods, Hardy type inequality, maximal principles M S C ( 2 0 2 0 )

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Well‐posedness of the Laplacian on manifolds with boundary and bounded geometry

Cited by 22 publications

References 70 publications

Linear parabolic equations with strong boundary degeneration

Linear parabolic equations with strong boundary degeneration

Analysis and boundary value problems on singular domains: An approach via bounded geometry

Existence and nonexistence of solutions to cone elliptic equations via Galerkin method

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