On $\delta'$-like potential scattering on star graphs
Abstract
We discuss the potential scattering on the noncompact star graph. The Schr\"{o}dinger operator with the short-range potential localizing in a neighborhood of the graph vertex is considered. We study the asymptotic behavior the corresponding scattering matrix in the zero-range limit. It has been known for a long time that in dimension 1 there is no non-trivial Hamiltonian with the distributional potential , i.e., the potential acts as a totally reflecting wall. Several authors have, in recent years, studied the scattering properties of the regularizing potentials approximating the first derivative of the Dirac delta function. A non-zero transmission through the regularized potential has been shown to exist as . We extend these results to star graphs with the point interaction, which is an analogue of potential on the line. We prove that generically such a potential on the graph is opaque. We also show that there exists a countable set of resonant intensities for which a partial transmission through the potential occurs. This set of resonances is referred to as the resonant set and is determined as the spectrum of an auxiliary Sturm-Liouville problem associated with on the graph.
Cite
@article{arxiv.1007.0398,
title = {On $\delta'$-like potential scattering on star graphs},
author = {Stepan Man'ko},
journal= {arXiv preprint arXiv:1007.0398},
year = {2015}
}
Comments
16 pages, 2 figures