Factorizations and Hardy-Rellich-Type Inequalities
Abstract
The principal aim of this note is to illustrate how factorizations of singular, even-order partial differential operators yield an elementary approach to classical inequalities of Hardy-Rellich-type. More precisly, introducing the two-parameter -dimensional homogeneous scalar differential expressions , , , , , and its formal adjoint, denoted by , we show that nonnegativity of on implies the fundamental inequality, \begin{align} \int_{\mathbb{R}^n} [(\Delta f)(x)]^2 \, d^n x &\geq [(n - 4) \alpha - 2 \beta] \int_{\mathbb{R}^n} |x|^{-2} |(\nabla f)(x)|^2 \, d^n x \notag \\ & \quad - \alpha (\alpha - 4) \int_{\mathbb{R}^n} |x|^{-4} |x \cdot (\nabla f)(x)|^2 \, d^n x \notag \\ & \quad + \beta [(n - 4) (\alpha - 2) - \beta] \int_{\mathbb{R}^n} |x|^{-4} |f(x)|^2 \, d^n x, \notag \end{align} for . A particular choice of values for and yields known Hardy-Rellich-type inequalities, including the classical Rellich inequality and an inequality due to Schmincke. By locality, these inequalities extend to the situation where is replaced by an arbitrary open set for functions . Perhaps more importantly, we will indicate that our method, in addition to being elementary, is quite flexible when it comes to a variety of generalized situations involving the inclusion of remainder terms and higher-order situations.
Cite
@article{arxiv.1701.08929,
title = {Factorizations and Hardy-Rellich-Type Inequalities},
author = {Fritz Gesztesy and Lance Littlejohn},
journal= {arXiv preprint arXiv:1701.08929},
year = {2017}
}
Comments
15 pages, some updates and an application of Rellich's inequality to lower semiboundedness and to form boundedness for interactions with countably many strong singularities are added