Edyta Kania, Marcin Preisner
Published 2016-03-23Version 1
Consider the Bessel operator with a potential on L^2((0,infty), x^a dx), namely Lf(x) = -f''(x) - a/x f'(x) + V(x)f(x). We assume that a>0 and V\in L^1_{loc}((0,infty), x^a dx) is a non-negative function. By definition, a function f\in L^1((0,infty), x^a dx) belongs to the Hardy space H^1(L) if sup_{t>0} |e^{-tL} f| \in L^1((0,infty), x^a dx). Under certain assumptions on V we characterize the space H^1(L) in terms of atomic decompositions of local type. In the second part we prove that this characterization can be applied to L for a \in (0,1) with no additional assumptions on the potential V.
On weak$^*$-convergence in the Hardy space $H^1$ over spaces of homogeneous type
Endpoint for the div-curl lemma in Hardy spaces
$L\log \log L$ versions of Stein's and Zygmund's theorems for the Hardy space $H^{\log}(\mathbb{R}^d)$
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