Weyl formulae for Schr\"odinger operators with critically singular potentials
Abstract
We obtain generalizations of classical versions of the Weyl formula involving Schr\"odinger operators on compact boundaryless Riemannian manifolds with critically singular potentials . In particular, we extend the classical results of Avakumovi\'{c} , Levitan and H\"ormander by obtaining bounds for the error term in the Weyl formula in the universal case when we merely assume that belongs to the Kato class, , which is the minimal assumption to ensure that is essentially self-adjoint and bounded from below or has favorable heat kernel bounds. In this case, we can also obtain extensions of the Duistermaat-Guillemin theorem yielding bounds for the error term under generic conditions on the geodesic flow, and we can also extend B\'erard's theorem yielding error bounds under the assumption that the principal curvatures are non-positive everywhere. We can obtain further improvements for tori, which are essentially optimal, if we strengthen the assumption on the potential to for appropriate exponents .
Cite
@article{arxiv.2005.10323,
title = {Weyl formulae for Schr\"odinger operators with critically singular potentials},
author = {Xiaoqi Huang and Christopher D. Sogge},
journal= {arXiv preprint arXiv:2005.10323},
year = {2021}
}
Comments
A revised version which will appear in Communications in Partial Differential Equations