The spectrum of the Laplacian: A geometric approach
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Publication:4608448
DOI10.1090/conm/700/14181zbMath1386.35293OpenAlexW4231196229MaRDI QIDQ4608448
Publication date: 16 March 2018
Published in: Geometric and Computational Spectral Theory (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1090/conm/700/14181
Estimates of eigenvalues in context of PDEs (35P15) Spectral problems; spectral geometry; scattering theory on manifolds (58J50)
Related Items (5)
A theory of spectral partitions of metric graphs ⋮ Steklov eigenvalues of submanifolds with prescribed boundary in Euclidean space ⋮ Some recent developments on the Steklov eigenvalue problem ⋮ Upper bounds for Steklov eigenvalues of submanifolds in Euclidean space via the intersection index ⋮ Hypersurfaces with Prescribed Boundary and Small Steklov Eigenvalues
Cites Work
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- Uniform stability of the Dirichlet spectrum for rough outer perturbations
- Existence and regularity of maximal metrics for the first Laplace eigenvalue on surfaces
- Isoperimetric control of the Steklov spectrum
- Conformal upper bounds for the eigenvalues of the Laplacian and Steklov problem
- Upper bounds for eigenvalues of conformal metrics
- Eigenvalues estimate for the Neumann problem of a bounded domain
- Sur une inégalité isopérimétrique qui généralise celle de Paul Lévy-Gromov. (On an isoperimetric inequality which generalizes that of Paul Lévy-Gromov)
- Spectral geometry: direct and inverse problems. With an appendix by G. Besson
- Immersions minimales, première valeur propre du laplacien et volume conforme. (Minimal immersions, first eigenvalue of the Laplacian and conformal volume)
- The first eigenvalue of the Laplacian on even dimensional spheres
- Upper bound for the second eigenvalue of a Schrödinger operator on a compact manifold and applications
- Eigenvalue comparison theorems and its geometric applications
- Extremal eigenvalues of the Laplacian in a conformal class of metrics: the `conformal spectrum'
- Spectrum of manifolds with holes
- Discontinuity of geometric expansions
- Existence and geometric structure of metrics on surfaces which extremize eigenvalues
- Spectral theory in Riemannian geometry
- Maximization of the second positive Neumann eigenvalue for planar domains
- Eigenvalues of the Laplacian on a compact manifold with density
- On a rigidity result for the first conformal eigenvalue of the Laplacian
- Capacity and Faber-Krahn inequality in \(\mathbb R^{n}\)
- Variational aspects of Laplace eigenvalues on Riemannian surfaces
- A sharp upper bound for the first eigenvalue of the Laplacian of compact hypersurfaces in rank-1 symmetric spaces
- Le spectre d'une variété riemannienne. (The spectrum of a Riemannian manifold)
- Isoperimetric control of the spectrum of a compact hypersurface
- Lower Bounds for Vibration Frequencies of Elastically Supported Membranes and Plates
- Bounding the eigenvalues of the Laplace-Beltrami operator on compact submanifolds
- Universal inequalities for the eigenvalues of Laplace and Schrödinger operators on submanifolds
- Stability estimates for certain Faber-Krahn,isocapacitary and Cheeger inequalities
- Spectre du laplacien et écrasement d'anses
- The First Eigenvalue of the Laplacian for Plane Domains
- A note on the isoperimetric constant
- Generic Properties of Eigenfunctions
- On A. Hurwitz' Method in Isoperimetric Inequalities
- Riemannian Metrics with Large λ 1
- A free boundary approach to the Faber-Krahn inequality
- Some nodal properties of the quantum harmonic oscillator and other Schrödinger operators in ℝ²
- The Spectrum of a Riemannian Manifold with a Unit Killing Vector Field
- A Note on the Generalized Dumbbell Problem
- Maximization of the second conformal eigenvalue of spheres
- Riemann surfaces with large first eigenvalue
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