We study a Bernoulli type free boundary problem with two phases. J[u]=??|?u(x)|2dx+?(M-(u),M+(u)),u-u-?W01,2(?), where u-?W1,2(?) is a given boundary datum. Here, M1 and M2 are weighted volumes of (u<=0)?? and (u>0)??, respectively, and ? is a nonnegative function of two real variables.We show that, for this problem, the Bernoulli constant, which determines the gradient jump condition across the free boundary, is of global type and it is indeed determined by the weighted volumes of the phases.In particular, the Bernoulli condition that we obtain can be seen as a pressure prescription in terms of the volume of the two phases of the minimizer itself (and therefore it depends on the minimizer itself and not only on the structural constants of the problem).Another property of this type of problems is that the minimizer in ? is not necessarily a minimizer in a smaller subdomain, due to the nonlinear structure of the problem.Due to these features, this problem is highly unstable as opposed to the classical case studied by Alt, Caffarelli and Friedman. It also interpolates the classical case, in the sense that the blow-up limits of u are minimizers of the Alt-Caffarelli-Friedman functional. Namely, the energy of the problem somehow linearizes in the blow-up limit.As a special case, we can deal with the energy levels generated by the volume term ?(0,r2)?r2n-1n, which interpolates the Athanasopoulos-Caffarelli-Kenig-Salsa energy, thanks to the isoperimetric inequality.In particular, we develop a detailed optimal regularity theory for the minimizers and for their free boundaries.

A nonlinear free boundary problem with a self-driven Bernoulli condition

E Valdinoci
2017

Abstract

We study a Bernoulli type free boundary problem with two phases. J[u]=??|?u(x)|2dx+?(M-(u),M+(u)),u-u-?W01,2(?), where u-?W1,2(?) is a given boundary datum. Here, M1 and M2 are weighted volumes of (u<=0)?? and (u>0)??, respectively, and ? is a nonnegative function of two real variables.We show that, for this problem, the Bernoulli constant, which determines the gradient jump condition across the free boundary, is of global type and it is indeed determined by the weighted volumes of the phases.In particular, the Bernoulli condition that we obtain can be seen as a pressure prescription in terms of the volume of the two phases of the minimizer itself (and therefore it depends on the minimizer itself and not only on the structural constants of the problem).Another property of this type of problems is that the minimizer in ? is not necessarily a minimizer in a smaller subdomain, due to the nonlinear structure of the problem.Due to these features, this problem is highly unstable as opposed to the classical case studied by Alt, Caffarelli and Friedman. It also interpolates the classical case, in the sense that the blow-up limits of u are minimizers of the Alt-Caffarelli-Friedman functional. Namely, the energy of the problem somehow linearizes in the blow-up limit.As a special case, we can deal with the energy levels generated by the volume term ?(0,r2)?r2n-1n, which interpolates the Athanasopoulos-Caffarelli-Kenig-Salsa energy, thanks to the isoperimetric inequality.In particular, we develop a detailed optimal regularity theory for the minimizers and for their free boundaries.
2017
Istituto di Matematica Applicata e Tecnologie Informatiche - IMATI -
Bernoulli condition
Free boundary
Nonlinear energy superposition
Regularity theory
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Descrizione: A nonlinear free boundary problem with a self-driven Bernoulli condition
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/337868
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