Estimates for Riesz potential on weighted variable Hardy spaces revisited
Abstract: In [Math. Ineq. & appl., Vol 26 (2) (2023), 511-530] and [Period. Math. Hung., 89 (1) (2024), 116-128], the present author proved that the Riesz potential $I_{\alpha}$ extends to a bounded operator $H{p(\cdot)}_{\omega}(\mathbb{R}n) \to L{q(\cdot)}_{\omega}(\mathbb{R}n)$ and $H{p(\cdot)}_{\omega}(\mathbb{R}n) \to H{q(\cdot)}_{\omega}(\mathbb{R}n)$ respectively, under the following two assumptions: $A1)$ $\omega \in \mathcal{W}{q(\cdot)}$ with $q(\cdot) \in \mathcal{P}{\log}(\mathbb{R}{n})$ and $\frac{1}{p(\cdot)} := \frac{1}{q(\cdot)} + \frac{\alpha}{n}$; $A2)$ for every cube $Q \subset \mathbb{R}{n}$, $| \chi_Q |{L{q(\cdot)}_{\omega}} \approx |Q|{-\alpha/n} | \chi_Q |{L{p(\cdot)}{\omega}}$. In this note, we re-establish such estimates for $I_{\alpha}$ without assuming the hypothesis $A2)$. These proofs are simpler than the previous ones.
Paper Prompts
Sign up for free to create and run prompts on this paper using GPT-5.
Top Community Prompts
Collections
Sign up for free to add this paper to one or more collections.