Application of Capacities to Space-Time Fractional Dissipative Equations II: Carleson Measure Characterization for Lq(ℝ+n+1,μ)L^q (\mathbb{R}_ + ^{n + 1} ,\mu )−Extension

Li Pengtao; Zhai Zhichun

doi:10.1515/anona-2021-0232

Advances in Nonlinear Analysis (Feb 2022)

Application of Capacities to Space-Time Fractional Dissipative Equations II: Carleson Measure Characterization for Lq(ℝ+n+1,μ)L^q (\mathbb{R}_ + ^{n + 1} ,\mu )−Extension

Li Pengtao,
Zhai Zhichun

Affiliations

Li Pengtao: College of Mathematics, Qingdao University, Qingdao, Shandong, 266071, P. R. China
Zhai Zhichun: Department of Mathematics and Statistics, MacEwan University Edmonton, AlbertaT5J2P2Canada

DOI: https://doi.org/10.1515/anona-2021-0232
Journal volume & issue: Vol. 11, no. 1
pp. 850 – 887

Abstract

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This paper provides the Carleson characterization of the extension of fractional Sobolev spaces and Lebesgue spaces to Lq(ℝ+n+1,μ)L^q (\mathbb{R}_ + ^{n + 1} ,\mu ) via space-time fractional equations. For the extension of fractional Sobolev spaces, preliminary results including estimates, involving the fractional capacity, measures, the non-tangential maximal function, and an estimate of the Riesz integral of the space-time fractional heat kernel, are provided. For the extension of Lebesgue spaces, a new Lp–capacity associated to the spatial-time fractional equations is introduced. Then, some basic properties of the Lp–capacity, including its dual form, the Lp–capacity of fractional parabolic balls, strong and weak type inequalities, are established.

Published in Advances in Nonlinear Analysis

ISSN: 2191-9496 (Print); 2191-950X (Online)
Publisher: De Gruyter
Country of publisher: Poland
LCC subjects: Science: Mathematics: Analysis
Website: https://www.degruyter.com/view/j/anona

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