Alano Ancona (1998)
Publicacions Matemàtiques
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Let L be a symmetric second order uniformly elliptic operator in divergence form acting in a bounded Lipschitz domain Ω of R and having Lipschitz coefficients in Ω. It is shown that the Rellich formula with respect to Ω and L extends to all functions in the domain D = {u ∈ H (Ω); L(u) ∈ L(Ω)} of L. This answers a question of A. Chaïra and G. Lebeau.
Jang-Mei G. Wu (1978)
Annales de l'institut Fourier
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On a Lipschitz domain in , three theorems on harmonic functions are proved. The first (boundary Harnack principle) compares two positive harmonic functions at interior points near an open subset of the boundary where both functions vanish. The second extends some familiar geometric facts about the Poisson kernel on a sphere to the Poisson kernel on . The third theorem, on non-tangential limits of quotient of two positive harmonic functions in , generalizes Doob’s relative Fatou...
Lewis, John L., Vogel, Andrew L. (2007)
Boundary Value Problems [electronic only]
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Atar, Rami, Athreya, Siva, Chen, Zhen-Qing (2009)
Electronic Journal of Probability [electronic only]
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Ferrari, Fausto, Salsa, Sandro (2007)
Boundary Value Problems [electronic only]
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Björn E. J. Dahlberg, C. E. Kenig, G. C. Verchota (1986)
Annales de l'institut Fourier
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In this paper we study and give optimal estimates for the Dirichlet problem for the biharmonic operator , on an arbitrary bounded Lipschitz domain in . We establish existence and uniqueness results when the boundary values have first derivatives in , and the normal derivative is in . The resulting solution takes the boundary values in the sense of non-tangential convergence, and the non-tangential maximal function of is shown to be in .
Pavel Doktor (1976)
Časopis pro pěstování matematiky
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