A conformal mapping algorithm for the Bernoulli free boundary value problem
Résumé
We propose a new numerical method for the solution of Bernoulli's free boundary value
problem for harmonic functions in a doubly connected domain $D$ in $\real^2$
where an unknown free boundary $\Gamma_0$ is determined by prescribed Cauchy data
on $\Gamma_0$ in addition to a Dirichlet condition on the known boundary $\Gamma_1$.
Our main idea is to involve the conformal mapping method
as proposed and analyzed by Akduman, Haddar and Kress~\cite{AkKr,HaKr05}
for the solution of a related inverse boundary value problem. For this we interpret the free boundary $\Gamma_0$
as the unknown boundary in the inverse problem
to construct $\Gamma_0$ from the Dirichlet condition on $\Gamma_0$ and Cauchy data on
the known boundary $\Gamma_1$. Our method for the Bernoulli problem iterates on the missing normal derivative on $\Gamma_1$
by alternating between the application of the conformal mapping method for the inverse problem
and solving a mixed Dirichlet--Neumann boundary value problem in $D$. We present the mathematical
foundations of our algorithm and prove a convergence result. Some numerical examples will serve as proof of concept
of our approach.
Origine | Fichiers produits par l'(les) auteur(s) |
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