Grafakos, Loukas; Laeng, Enrico; Morpurgo, Carlo Inequalities for Poisson integrals with slowly growing dimensional constants. (English) Zbl 1134.31006 Publ. Mat., Barc. 51, No. 1, 59-75 (2007). For \(1<p<\infty\) let \(Pf (x,t)\) denote the Poisson integral of \(f \in L^p (\mathbb R^n)\). The main object of study of this paper is the inequality \[ \| Pf\| _{L^p (\mathbb R^{n+1}_+; \, d\mu)}\leq c_{p,n}\, \kappa (\mu)^{1/p}\,\| f \| _{L^p (\mathbb R^{n})}, \] where \(d \mu\) is the Carleson measure in the half-space \(\mathbb R^{n+1}_+\), and \(\kappa (\mu)\) is the Carleson norm of \(\mu\). For \(p>2\) this inequality was proved by I. E. Verbitsky [in: Complex analysis, operators, and related topics. The S. A. Vinogradov memorial volume. Oper. Theory, Adv. Appl. 113, 393–398 (2000; Zbl 0959.31006)], showing that the constant \(c_{p,n}\) can be chosen independent of \(n\). The author extend these result, proving the inequality above for \(1<p<2\) with \(c_{p,n}=C_p \, n^{1/p -1/2}\), as well as for \(p=2\) with \(c_{2,n}=C\, (\log n)^{1/2}\). These estimates of the constant \(c_{p,n}\) improve the previously known estimates. Reviewer: Andrei Martínez Finkelshtein (Almeria) MSC: 31B15 Potentials and capacities, extremal length and related notions in higher dimensions 42B25 Maximal functions, Littlewood-Paley theory Keywords:Carleson measures; harmonic functions; dimension free estimates Citations:Zbl 0959.31006 PDFBibTeX XMLCite \textit{L. Grafakos} et al., Publ. Mat., Barc. 51, No. 1, 59--75 (2007; Zbl 1134.31006) Full Text: DOI EuDML