Characterizations of Product Hardy Spaces in Bessel Setting

Xuan Thinh Duong; Ji Li; Brett D. Wick; Dongyong Yang

doi:10.1007/s00041-021-09823-4

Characterizations of Product Hardy Spaces in Bessel Setting

Xuan Thinh Duong, Ji Li, Brett D. Wick, Dongyong Yang

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

In this paper, we work in the setting of Bessel operators and Bessel Laplace equations studied by Weinstein, Huber, and the harmonic function theory in this setting introduced by Muckenhoupt–Stein, especially the generalised Cauchy–Riemann equations and the conjugate harmonic functions. We provide the equivalent characterizations of product Hardy spaces associated with Bessel operators in terms of the Bessel Riesz transforms, non-tangential and radial maximal functions defined via Poisson and heat semigroups, based on the atomic decomposition, the generalised Cauchy–Riemann equations, the extension of Merryfield’s result which connects the product non-tangential maximal function and area function, and on the grand maximal function technique which connects the product non-tangential and radial maximal function. We then obtain directly the decomposition of the product BMO space associated with Bessel operators.

Original language	English
Article number	24
Journal	Journal of Fourier Analysis and Applications
Volume	27
Issue number	2
DOIs	https://doi.org/10.1007/s00041-021-09823-4
State	Published - Apr 2021

Keywords

Bessel operator
Bessel Riesz transform
Cauchy–Riemann type equations
Littlewood–Paley theory
maximal function
Product BMO space
Product Hardy space

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10.1007/s00041-021-09823-4

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title = "Characterizations of Product Hardy Spaces in Bessel Setting",

abstract = "In this paper, we work in the setting of Bessel operators and Bessel Laplace equations studied by Weinstein, Huber, and the harmonic function theory in this setting introduced by Muckenhoupt–Stein, especially the generalised Cauchy–Riemann equations and the conjugate harmonic functions. We provide the equivalent characterizations of product Hardy spaces associated with Bessel operators in terms of the Bessel Riesz transforms, non-tangential and radial maximal functions defined via Poisson and heat semigroups, based on the atomic decomposition, the generalised Cauchy–Riemann equations, the extension of Merryfield{\textquoteright}s result which connects the product non-tangential maximal function and area function, and on the grand maximal function technique which connects the product non-tangential and radial maximal function. We then obtain directly the decomposition of the product BMO space associated with Bessel operators.",

keywords = "Bessel operator, Bessel Riesz transform, Cauchy–Riemann type equations, Littlewood–Paley theory, maximal function, Product BMO space, Product Hardy space",

author = "Duong, \{Xuan Thinh\} and Ji Li and Wick, \{Brett D.\} and Dongyong Yang",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature.",

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month = apr,

doi = "10.1007/s00041-021-09823-4",

language = "English",

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journal = "Journal of Fourier Analysis and Applications",

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T1 - Characterizations of Product Hardy Spaces in Bessel Setting

AU - Duong, Xuan Thinh

AU - Li, Ji

AU - Wick, Brett D.

AU - Yang, Dongyong

PY - 2021/4

Y1 - 2021/4

N2 - In this paper, we work in the setting of Bessel operators and Bessel Laplace equations studied by Weinstein, Huber, and the harmonic function theory in this setting introduced by Muckenhoupt–Stein, especially the generalised Cauchy–Riemann equations and the conjugate harmonic functions. We provide the equivalent characterizations of product Hardy spaces associated with Bessel operators in terms of the Bessel Riesz transforms, non-tangential and radial maximal functions defined via Poisson and heat semigroups, based on the atomic decomposition, the generalised Cauchy–Riemann equations, the extension of Merryfield’s result which connects the product non-tangential maximal function and area function, and on the grand maximal function technique which connects the product non-tangential and radial maximal function. We then obtain directly the decomposition of the product BMO space associated with Bessel operators.

AB - In this paper, we work in the setting of Bessel operators and Bessel Laplace equations studied by Weinstein, Huber, and the harmonic function theory in this setting introduced by Muckenhoupt–Stein, especially the generalised Cauchy–Riemann equations and the conjugate harmonic functions. We provide the equivalent characterizations of product Hardy spaces associated with Bessel operators in terms of the Bessel Riesz transforms, non-tangential and radial maximal functions defined via Poisson and heat semigroups, based on the atomic decomposition, the generalised Cauchy–Riemann equations, the extension of Merryfield’s result which connects the product non-tangential maximal function and area function, and on the grand maximal function technique which connects the product non-tangential and radial maximal function. We then obtain directly the decomposition of the product BMO space associated with Bessel operators.

KW - Bessel operator

KW - Bessel Riesz transform

KW - Cauchy–Riemann type equations

KW - Littlewood–Paley theory

KW - maximal function

KW - Product BMO space

KW - Product Hardy space

UR - https://www.scopus.com/pages/publications/85106297427

U2 - 10.1007/s00041-021-09823-4

DO - 10.1007/s00041-021-09823-4

M3 - Article

AN - SCOPUS:85106297427

SN - 1069-5869

VL - 27

JO - Journal of Fourier Analysis and Applications

JF - Journal of Fourier Analysis and Applications

IS - 2

M1 - 24

ER -

Characterizations of Product Hardy Spaces in Bessel Setting

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Keywords

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