Fractional Integration on Mixed Norm Spaces. I

IF 0.7 4区 数学 Q2 MATHEMATICS Complex Analysis and Operator Theory Pub Date : 2024-03-02 DOI:10.1007/s11785-024-01488-3
Feng Guo, Xiang Fang, Shengzhao Hou, Xiaolin Zhu
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引用次数: 0

Abstract

In this paper we characterize completely the septuple

$$\begin{aligned} (p_1, p_2, q_1, q_2; \alpha _1, \alpha _2; t) \in (0, \infty ]^4 \times (0, \infty )^2 \times {\mathbb {C}} \end{aligned}$$

such that the fractional integration operator \({\mathfrak {I}}_t\), of order \(t \in {\mathbb {C}}\), is bounded between two mixed norm spaces:

$$\begin{aligned} {\mathfrak {I}}_t: H(p_1, q_1, \alpha _1) \rightarrow H(p_2, q_2, \alpha _2). \end{aligned}$$

We treat three types of definitions for \({\mathfrak {I}}_t\): Hadamard, Flett, and Riemann-Liouville. Our main result (Theorem 2) extends that of Buckley-Koskela-Vukotić in 1999 on the Bergman spaces (Theorem B), and the case \(t=0\) recovers the embedding theorem of Arévalo in 2015 (Corollary 3). The corresponding result for the Hardy spaces \(H^p({\mathbb {D}})\), of type Riemann-Liouville, is due to Hardy and Littlewood in 1932.

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混合规范空间上的分数积分I
在本文中,我们完全描述了$$begin{aligned} (p_1, p_2, q_1, q_2; \alpha _1, \alpha _2; t) \in (0, \infty ]^4 \times (0, \infty )^2 \times {\mathbb {C}} 的七元组$$begin{aligned}(p_1, p_2, q_1, q_2; \alpha _1, \alpha _2; t)。\end{aligned}$$使得阶数为(t 在 {\mathbb {C}})的分数积分算子 \({\mathfrak {I}}_t\) 在两个混合规范空间之间有界:$$begin{aligned} {\mathfrak {I}}_t:H(p_1, q_1, \alpha _1) \rightarrow H(p_2, q_2, \alpha _2).\end{aligned}$$我们处理了三种关于 \({\mathfrak {I}}_t\) 的定义:Hadamard、Flett 和 Riemann-Liouville 定义。我们的主要结果(定理 2)扩展了巴克利-科斯克拉-武科蒂奇(Buckley-Koskela-Vukotić)1999 年关于伯格曼空间的结果(定理 B),而 \(t=0\) 的情况则恢复了阿雷瓦洛(Arévalo)2015 年的嵌入定理(推论 3)。黎曼-刘维尔类型的哈代空间 \(H^p({\mathbb {D}})\ 的相应结果是哈代和利特尔伍德在 1932 年得出的。
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来源期刊
Complex Analysis and Operator Theory
Complex Analysis and Operator Theory 数学-数学
CiteScore
1.20
自引率
12.50%
发文量
107
审稿时长
3 months
期刊介绍: Complex Analysis and Operator Theory (CAOT) is devoted to the publication of current research developments in the closely related fields of complex analysis and operator theory as well as in applications to system theory, harmonic analysis, probability, statistics, learning theory, mathematical physics and other related fields. Articles using the theory of reproducing kernel spaces are in particular welcomed.
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