Hardy Spaces for Laguerre Expansions

Abstract

Let \({\cal L}_n^a(x)\) be the standard Laguerre functions of type a. We denote \(\varphi_n^a(x)={\cal L}_n^a(x^2)(2x)^{1\slash 2}\). Let \({\cal T}_tf(x)=\sum_{n}e^{-(n+(a+1)\slash 2)t} \langle f,{\cal L}_n^a\rangle {\cal L}_n^a(x)\) and \(T_tf(x)=\sum_{n}e^{-(4n+2a+2)t} \langle f,\varphi_n^a\rangle \varphi_n^a(x)\) be the semigroups associated with the orthonormal systems \({\cal L}^a_n\) and \(\varphi_n^a\). We say that a function f belongs to the Hardy space \(H^1\) associated with one of the semigroups if the corresponding maximal function belongs to \(L^1((0,\infty), dx)\). We prove special atomic decompositions of the elements of the Hardy spaces.