涉及Lebedev-Skalskaya变换的分数极大算子和Riesz势算子

IF 0.8 4区综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES Proceedings of the National Academy of Sciences, India Section A: Physical Sciences Pub Date : 2023-09-20 DOI:10.1007/s40010-023-00851-x

Ajay K. Gupt, Akhilesh Prasad, U. K. Mandal

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引用次数: 0

摘要

本文研究了从\(L^p(\mathbb {R}_+;\frac{\exp ({-x \cos (\rho )})}{\sqrt{x}}\mathrm{{dx}})\)到\(L^p(\mathbb {R}_+;x^{\frac{p}{2}}\mathrm{{dx}})\)和从\(L^1(\mathbb {R}_+;\frac{\exp ({-x \cos (\rho )})}{\sqrt{x}}\mathrm{{dx}})\)到弱空间\(\mathrm{{WL}}^1(\mathbb {R}_+;x^{\frac{1}{2}}\mathrm{{dx}})\)的LS变换的分数极大函数和Riesz势的有界性。在这项工作中，我们使用与LS变换相关的平移算子定义了分数阶积分算子和分数阶极大算子。在Lebesgue空间的框架下研究了这些积分算子的有界性。这些分数阶积分算子应用于偏微分方程和Sobolev空间的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Fractional Maximal and Riesz Potential Operators Involving the Lebedev–Skalskaya Transform

In this paper, the boundedness of the fractional maximal function and Riesz potential for the LS transform from \(L^p(\mathbb {R}_+;\frac{\exp ({-x \cos (\rho )})}{\sqrt{x}}\mathrm{{dx}})\) to \(L^p(\mathbb {R}_+;x^{\frac{p}{2}}\mathrm{{dx}})\) and from \(L^1(\mathbb {R}_+;\frac{\exp ({-x \cos (\rho )})}{\sqrt{x}}\mathrm{{dx}})\) to the weak space \(\mathrm{{WL}}^1(\mathbb {R}_+;x^{\frac{1}{2}}\mathrm{{dx}})\) are studied. Relevance of the work In this work, we define the fractional integral and the fractional maximal operators using the translation operator associated with LS transform. The boundedness of these integral operators is investigated in the framework of Lebesgue spaces. These fractional integral operators are applied to the study of partial differential equations and Sobolev spaces.

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