# Littlewood-Paley characterization for $Q_{\alpha}(R^n)$ spaces

- Authors
- Type
- Preprint
- Publication Date
- Aug 31, 2009
- Submission Date
- Aug 31, 2009
- Identifiers
- arXiv ID: 0908.4380
- Source
- arXiv
- License
- Yellow
- External links

## Abstract

In Baraka's paper [2], he obtained the Littlewood-Paley characterization of Campanato spaces $L^{2,\lambda}$ and introduced $\mathcal {L}^{p,\lambda,s}$ spaces. He showed that $\mathcal {L}^{2,\lambda,s}=(-\triangle)^{-\frac{s}{2}}L^{2,\lambda}$ for $0\leq\lambda<n+2$. In [7], by using the properties of fractional Carleson measures, J Xiao proved that for $n\geq2$, $0<\alpha<1$. $(-\triangle)^{-\frac{\alpha}{2}}L^{2,n-2\alpha}$ is essential the $Q_{\alpha}(\mathbb{R}^n)$ spaces which were introduced in [4]. Then we could conclude that $Q_{\alpha}(\mathbb{R}^n)=\mathcal {L}^{2,n-2\alpha,\alpha}$ for $0<\alpha<1$. In fact, this result could be also obtained directly by using the method in [2]. In this paper, We proved this result in the spirit of [2]. This paper could be considered as the supplement of Baraka's work [2].