Stein–Weiss inequalities with the fractional Poisson kernel

Lu Chen; Zhao Liu; Guozhen Lu; Chunxia Tao

doi:10.4171/RMI/1167

Stein–Weiss inequalities with the fractional Poisson kernel

Lu Chen, Zhao Liu, Guozhen Lu, Chunxia Tao

School of Mathematics and Statistics

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

15 Citations (Scopus)

Abstract

In this paper, we establish the following Stein–Weiss inequality with the fractional Poisson kernel: (Equation Present), and p, q' ∈ (1, ∞) and satisfy (n−1)/(np)+1/q'+(α+β+2−γ)/n = 1. Then we prove that there exist extremals for the Stein–Weiss inequality (*), and that the extremals must be radially decreasing about the origin. We also provide the regularity and asymptotic estimates of positive solutions to the integral systems which are the Euler–Lagrange equations of the extremals to the Stein–Weiss inequality (*) with the fractional Poisson kernel. Our result is inspired by the work of Hang, Wang and Yan, where the Hardy–Littlewood–Sobolev type inequality was first established when γ = 2 and α = β = 0. The proof of the Stein–Weiss inequality (*) with the fractional Poisson kernel in this paper uses recent work on the Hardy–Littlewood–Sobolev inequality with the fractional Poisson kernel by Chen, Lu and Tao, and the present paper is a further study in this direction.

Original language	English
Pages (from-to)	1289-1308
Number of pages	20
Journal	Revista Matematica Iberoamericana
Volume	36
Issue number	5
DOIs	https://doi.org/10.4171/RMI/1167
Publication status	Published - 25 Feb 2020

Keywords

Existence of extremal functions
Hardy inequality in high dimensions
Poisson kernel
Stein–Weiss inequality

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10.4171/RMI/1167

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title = "Stein–Weiss inequalities with the fractional Poisson kernel",

abstract = "In this paper, we establish the following Stein–Weiss inequality with the fractional Poisson kernel: (Equation Present), and p, q' ∈ (1, ∞) and satisfy (n−1)/(np)+1/q'+(α+β+2−γ)/n = 1. Then we prove that there exist extremals for the Stein–Weiss inequality (*), and that the extremals must be radially decreasing about the origin. We also provide the regularity and asymptotic estimates of positive solutions to the integral systems which are the Euler–Lagrange equations of the extremals to the Stein–Weiss inequality (*) with the fractional Poisson kernel. Our result is inspired by the work of Hang, Wang and Yan, where the Hardy–Littlewood–Sobolev type inequality was first established when γ = 2 and α = β = 0. The proof of the Stein–Weiss inequality (*) with the fractional Poisson kernel in this paper uses recent work on the Hardy–Littlewood–Sobolev inequality with the fractional Poisson kernel by Chen, Lu and Tao, and the present paper is a further study in this direction.",

keywords = "Existence of extremal functions, Hardy inequality in high dimensions, Poisson kernel, Stein–Weiss inequality",

author = "Lu Chen and Zhao Liu and Guozhen Lu and Chunxia Tao",

year = "2020",

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doi = "10.4171/RMI/1167",

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T1 - Stein–Weiss inequalities with the fractional Poisson kernel

AU - Chen, Lu

AU - Liu, Zhao

AU - Lu, Guozhen

AU - Tao, Chunxia

PY - 2020/2/25

Y1 - 2020/2/25

N2 - In this paper, we establish the following Stein–Weiss inequality with the fractional Poisson kernel: (Equation Present), and p, q' ∈ (1, ∞) and satisfy (n−1)/(np)+1/q'+(α+β+2−γ)/n = 1. Then we prove that there exist extremals for the Stein–Weiss inequality (*), and that the extremals must be radially decreasing about the origin. We also provide the regularity and asymptotic estimates of positive solutions to the integral systems which are the Euler–Lagrange equations of the extremals to the Stein–Weiss inequality (*) with the fractional Poisson kernel. Our result is inspired by the work of Hang, Wang and Yan, where the Hardy–Littlewood–Sobolev type inequality was first established when γ = 2 and α = β = 0. The proof of the Stein–Weiss inequality (*) with the fractional Poisson kernel in this paper uses recent work on the Hardy–Littlewood–Sobolev inequality with the fractional Poisson kernel by Chen, Lu and Tao, and the present paper is a further study in this direction.

AB - In this paper, we establish the following Stein–Weiss inequality with the fractional Poisson kernel: (Equation Present), and p, q' ∈ (1, ∞) and satisfy (n−1)/(np)+1/q'+(α+β+2−γ)/n = 1. Then we prove that there exist extremals for the Stein–Weiss inequality (*), and that the extremals must be radially decreasing about the origin. We also provide the regularity and asymptotic estimates of positive solutions to the integral systems which are the Euler–Lagrange equations of the extremals to the Stein–Weiss inequality (*) with the fractional Poisson kernel. Our result is inspired by the work of Hang, Wang and Yan, where the Hardy–Littlewood–Sobolev type inequality was first established when γ = 2 and α = β = 0. The proof of the Stein–Weiss inequality (*) with the fractional Poisson kernel in this paper uses recent work on the Hardy–Littlewood–Sobolev inequality with the fractional Poisson kernel by Chen, Lu and Tao, and the present paper is a further study in this direction.

KW - Existence of extremal functions

KW - Hardy inequality in high dimensions

KW - Poisson kernel

KW - Stein–Weiss inequality

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JO - Revista Matematica Iberoamericana

JF - Revista Matematica Iberoamericana

IS - 5

ER -

Stein–Weiss inequalities with the fractional Poisson kernel

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