Weighted maximal regularity estimates and solvability of non-smooth elliptic systems I

We develop new solvability methods for divergence form second order, real and complex, elliptic systems above Lipschitz graphs, with L 2 boundary data. The coefficients A may depend on all variables, but are assumed to be close to coefficients A 0 that are independent of the coordinate transversal t...

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Vydáno v:Inventiones mathematicae Ročník 184; číslo 1; s. 47 - 115
Hlavní autoři: Auscher, Pascal, Axelsson, Andreas
Médium: Journal Article
Jazyk:angličtina
Vydáno: Berlin/Heidelberg Springer-Verlag 01.04.2011
Springer Nature B.V
Springer Verlag
Témata:
Analysis of PDEs
Carleson measure
Dirichlet and Neumann problems
elliptic systems
Functional Analysis
functional and operational calculus
MATEMATIK
MATHEMATICS
Mathematics and Statistics
maximal regularity
non-tangential maximal function
square function
Neumann Problem
Dirichlet Problem
Elliptic System
Functional Calculus
Operational Calculus
Elliptic systems
Square function
Carleson measure
Functional and operational calculus
Dirichlet and Neumann problems
Maximal regularity
Non-tangential maximal function
ISSN:0020-9910, 1432-1297, 1432-1297
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Popis
Shrnutí:We develop new solvability methods for divergence form second order, real and complex, elliptic systems above Lipschitz graphs, with L 2 boundary data. The coefficients A may depend on all variables, but are assumed to be close to coefficients A 0 that are independent of the coordinate transversal to the boundary, in the Carleson sense ‖ A − A 0 ‖ C defined by Dahlberg. We obtain a number of a priori estimates and boundary behaviour results under finiteness of ‖ A − A 0 ‖ C . Our methods yield full characterization of weak solutions, whose gradients have L 2 estimates of a non-tangential maximal function or of the square function, via an integral representation acting on the conormal gradient, with a singular operator-valued kernel. Also, the non-tangential maximal function of a weak solution is controlled in L 2 by the square function of its gradient. This estimate is new for systems in such generality, and even for real non-symmetric equations in dimension 3 or higher. The existence of a proof a priori to well-posedness, is also a new fact. As corollaries, we obtain well-posedness of the Dirichlet, Neumann and Dirichlet regularity problems under smallness of ‖ A − A 0 ‖ C and well-posedness for A 0 , improving earlier results for real symmetric equations. Our methods build on an algebraic reduction to a first order system first made for coefficients A 0 by the two authors and A. McIntosh in order to use functional calculus related to the Kato conjecture solution, and the main analytic tool for coefficients A is an operational calculus to prove weighted maximal regularity estimates.
Bibliografie:SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 14
ISSN:0020-9910
1432-1297
1432-1297
DOI:10.1007/s00222-010-0285-4