# Intrinsic nature of the Stein-Weiss $H^1$-inequality

**Authors:** Liguang Liu, Jie Xiao

arXiv: 1904.03994 · 2019-05-15

## TL;DR

This paper investigates the intrinsic properties of the Stein-Weiss $H^1$-inequality, revealing a characterization of certain function spaces through Riesz transforms and duality, and addressing Bourgain-Brezis' decomposition problem.

## Contribution

It provides a new characterization of the Riesz transform component in the Stein-Weiss inequality using duality and BMO, linking it to Bourgain-Brezis' problem.

## Key findings

- Characterizes functions in $I_s([ing{H}^{s,1}_-]^*)$ via Riesz transforms and BMO.
- Links the Stein-Weiss inequality to Bourgain-Brezis' decomposition problem.
- Establishes a connection between $H^1$-inequality and Riesz transform decompositions.

## Abstract

This paper explores the intrinsic nature of the celebrated Stein-Weiss $H^1$-inequality   $$   \|I_s u\|_{L^\frac{n}{n-s}}\lesssim \|u\|_{L^1}+\|\vec{R}u\|_{L^{1}}=\|u\|_{H^1}   $$ through the tracing and duality laws based on Riesz's singular integral operator $I_s$. We discover that $f\in I_s\big([\mathring{H}^{s,1}_{-}]^\ast\big)$ if and only if $\exists\ \vec{g}=(g_1,...,g_n)\in \big(L^\infty\big)^n$ such that $f=\vec{R}\cdot\vec{g}=\sum_{j=1}^n R_jg_j$ in $\mathrm{BMO}$ (the John-Nirenberg space introduced in their 1961 {\it Comm. Pure Appl. Math.} paper \cite{JN}) where $\vec{R}=(R_1,...,R_n)$ is the vector-valued Riesz transform - this characterizes the Riesz transform part $\vec{R}\cdot\big(L^\infty\big)^n$ of Fefferman-Stein's decomposition (established in their 1972 {\it Acta Math} paper \cite{FS}) for $\mathrm{BMO}=L^\infty+\vec{R}\cdot\big(L^\infty\big)^n$ and yet indicates that $I_s\big([\mathring{H}^{s,1}_-]^\ast\big)$ is indeed a solution to Bourgain-Brezis' problem under $n\ge 2$: ``What are the function spaces $X, W^{1,n}\subset X\subset \mathrm{BMO}$, such that every $F\in X$ has a decomposition $F=\sum_{j=1}^n R_j Y_j$ where $Y_j\in L^\infty$?" (posed in their 2003 {\it J. Amer. Math. Soc.} paper \cite{BB}).

## Full text

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## References

40 references — full list in the complete paper: https://tomesphere.com/paper/1904.03994/full.md

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