An isoperimetric-type inequality for electrostatic shell interactions for Dirac operators
Abstract
In this article we investigate spectral properties of the coupling , where is the free Dirac operator in , and is an electrostatic shell potential (which depends on a parameter ) located on the boundary of a smooth domain in . Our main result is an isoperimetric-type inequality for the admissible range of 's for which the coupling generates pure point spectrum in . That the ball is the unique optimizer of this inequality is also shown. Regarding some ingredients of the proof, we make use of the Birman-Schwinger principle adapted to our setting in order to prove some monotonicity property of the admissible 's, and we use this to relate the endpoints of the admissible range of 's to the sharp constant of a quadratic form inequality, from which the isoperimetric-type inequality is derived.
Cite
@article{arxiv.1504.04220,
title = {An isoperimetric-type inequality for electrostatic shell interactions for Dirac operators},
author = {Naiara Arrizabalaga and Albert Mas and Luis Vega},
journal= {arXiv preprint arXiv:1504.04220},
year = {2016}
}
Comments
21 pages