English

Singular inverse-square potential: renormalization and self-adjoint extensions for medium to weak coupling

Mathematical Physics 2014-02-24 v1 math.MP Quantum Physics

Abstract

We study the radial Schr\"{o}dinger equation for a particle of mass mm in the field of the inverse-square potential α/r2\alpha/r^{2} in the medium-weak-coupling region, i.e., with 1/42mα/23/4-1/4\leq2m\alpha/\hbar^{2}\leq3/4. By using the renormalization method of Beane \textit{et} \textit{al.,}with two regularization potentials, a spherical square well and a spherical δ\delta shell, we illustrate that the procedure of renormalization is independent of the choice of the regularization counterterm. We show that, in the aforementioned range of the coupling constant α\alpha, there exists at most one bound state, in complete agreement with the method of self-adjoint extensions. We explicitly show that this bound state is due to the attractive square-well and delta-function counterterms present in the renormalization scheme. Our result for 2mα/2=1/42m\alpha/\hbar^{2}=-1/4 is in contradiction with some results in the literature.

Keywords

Cite

@article{arxiv.1402.5325,
  title  = {Singular inverse-square potential: renormalization and self-adjoint extensions for medium to weak coupling},
  author = {Djamil Bouaziz and Michel Bawin},
  journal= {arXiv preprint arXiv:1402.5325},
  year   = {2014}
}

Comments

11 pages

R2 v1 2026-06-22T03:13:13.281Z