On the Geometry of Optimal Windows, with Special Focus on the Square

For the Laplace operator with mixed (Dirichlet and Neumann) boundary conditions, the dependence of the principal eigenvalue on the placement of the Dirichlet part is investigated. An optimal window is a Dirichlet part of the boundary that minimizes the principal eigenvalue among all competitors of t...

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Vydáno v:SIAM journal on mathematical analysis Ročník 37; číslo 6; s. 1800 - 1827
Hlavní autoři: Burchard, Almut, Denzler, Jochen
Médium: Journal Article
Jazyk:angličtina
Vydáno: Philadelphia, PA Society for Industrial and Applied Mathematics 01.01.2006
Témata:
Applied mathematics
Boundary conditions
Calculus of variations and optimal control
Eigenvalues
Exact sciences and technology
Geometry
Heat
Mathematical analysis
Mathematics
Partial differential equations
Potential theory
Sciences and techniques of general use
Laplace operator
Discontinuity
Neumann problem
Singularity
Variational methods
31C40
shape optimization
Eigenfunction
Optimization method
Optimal eigenvalue
35J05
Boundary condition
mixed boundary conditions
singular coefficient
Capacity
rearrangement; 49R50
Dirichlet problem
35R05
ISSN:0036-1410, 1095-7154
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Shrnutí:For the Laplace operator with mixed (Dirichlet and Neumann) boundary conditions, the dependence of the principal eigenvalue on the placement of the Dirichlet part is investigated. An optimal window is a Dirichlet part of the boundary that minimizes the principal eigenvalue among all competitors of the same area. In the special case of a square, we provide both numerical evidence and rigorous partial results for the conjecture that optimal windows in a square are segments centered at either a corner or the midpoint of a side. In particular, we prove that the principal eigenvalue decreases as a window is shifted from a side-centered position towards the corner. An optimal window contained in two sides of the square is connected and contains a corner in its interior. Optimal windows whose length does not exceed the length of one side break the symmetry of the square. We also construct a star-shaped domain whose optimal window(s) must be disconnected. Finally we give, for general domains in $\R^d$, continuity results for the eigenvalue as a function of the window, and examples of discontinuity when crucial hypotheses are violated. We also give a variation formula that relates the eigenvalue to the singularities of the eigenfunction (stress intensity coefficient) near the boundary of the window. Methods are based on the variational problem and include rearrangement, Dirichlet--Neumann bracketing, capacity estimates, and deformation under a flow.
Bibliografie:ObjectType-Article-1
SourceType-Scholarly Journals-1
content type line 14
ISSN:0036-1410
1095-7154
DOI:10.1137/S0036141004444184