Hessian determinants and averaging operators over surfaces in R3
Abstract
We prove Lp( R3) to Lps( R3) Sobolev improvement theorems for local averaging operators over real analytic surfaces in R3. For most such operators, in a sense made precise in the paper, the set of (p,s) for which we prove Lp( R3) to Lps( R3) boundedness is optimal up to endpoints. Using an interpolation argument in conjunction with these Lp( R3) to Lps( R3) results we obtain an Lp( R3) to Lq( R3) improvement theorem, and the set of exponents (p,q) obtained will also usually be optimal up to endpoints. The advantage the methods of this paper have over those of the author's earlier papers is that the oscillatory integral methods of the earlier papers, closely tied to the Van der Corput lemma, allow one to only prove 1/2 of a derivative of surface measure Fourier transform decay, while the methods of this paper, when combined with appropriate resolution of singularities methods, allow one to go up to the maximum possible 1 derivative. This allows us to prove the stronger sharp up to endpoints results.
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