On essential self-adjointness of singular Sturm–Liouville operators

S. Blake Allan; Fritz Gesztesy; Alexander Sakhnovich

doi:10.33044/revuma.2735

Authors

S. Blake Allan Department of Mathematics, Baylor University, Sid Richardson Bldg., 1410 S. 4th Street, Waco, TX 76706, USA
Fritz Gesztesy Department of Mathematics, Baylor University, Sid Richardson Bldg., 1410 S. 4th Street, Waco, TX 76706, USA
Alexander Sakhnovich Faculty of Mathematics, University of Vienna, Oskar-Morgenstern-Platz 1, 1090 Wien, Austria

DOI:

https://doi.org/10.33044/revuma.2735

Abstract

Considering singular Sturm-Liouville differential expressions of the type
\[
\tau_{\alpha} = -(d/dx)x^{\alpha}(d/dx) + q(x),
\quad x \in (0,b), \, \alpha \in \mathbb{R},
\]
we employ some Sturm comparison-type results in the spirit of Kurss to derive criteria for $\tau_{\alpha}$ to be in the limit-point and limit-circle case at $x=0$. More precisely, if $\alpha \in \mathbb{R}$ and, for $0 < x$ sufficiently small,
\[
q(x) \geq [(3/4)-(\alpha/2)]x^{\alpha-2},
\]
or, if $\alpha\in (-\infty,2)$ and there exist $N\in\mathbb{N}$ and $\varepsilon>0$ such that, for $0 < x$ sufficiently small,
\begin{align*}
& q(x)\geq[(3/4)-(\alpha/2)]x^{\alpha-2} - (1/2) (2 - \alpha) x^{\alpha-2}
\sum_{j=1}^{N}\prod_{\ell=1}^{j}[\ln_{\ell}(x)]^{-1}
\\
& \quad\quad\quad +[(3/4)+\varepsilon] x^{\alpha-2}[\ln_{1}(x)]^{-2},
\end{align*}
then $\tau_{\alpha}$ is nonoscillatory and in the limit-point case at $x=0$. Here iterated logarithms for $0 < x$ sufficiently small are of the form
\[
\ln_1(x) = |\ln(x)| = \ln(1/x),
\qquad
\ln_{j+1}(x) = \ln(\ln_j(x)), \quad j \in \mathbb{N}.
\]
Analogous results are derived for $\tau_{\alpha}$ to be in the limit-circle case at $x=0$. We also discuss a multi-dimensional application to partial differential expressions of the type
\[
- \operatorname{div} |x|^{\alpha} \nabla + q(|x|),
\quad \alpha \in \mathbb{R}, \, x \in B_n(0;R) \backslash \{0\},
\]
with $B_n(0;R)$ the open ball in $\mathbb{R}^n$, $n\in \mathbb{N}$, $n \geq 2$, centered at $x=0$ of radius $R \in (0, \infty)$.

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On essential self-adjointness of singular Sturm–Liouville operators

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