English

Three-boson stability for boosted interactions towards the zero-range limit

Nuclear Theory 2021-11-10 v1 Computational Physics

Abstract

We study the three-boson bound-state mass and wave functions for ground and excited states within the three-body relativistic framework with Kamada and Gl\"ocke boosted potentials in the limit of a zero-range interaction. We adopt a nonrelativistic short-range separable potential, with Yamaguchi and Gaussian form factors, and drive them towards the zero-range limit by letting the form factors' momentum scales go to large values while keeping the two-body binding fixed. We show that the three-boson relativistic masses and wave functions are model-independent towards the zero-range limit, and the Thomas collapse is avoided, while the nonrelativistic limit kept the Efimov effect. Furthermore, the stability in the zero-range limit is a result of the reduction of boosted potential with the increase of the virtual pair center of mass momentum within the three-boson system. Finally, we compare the present results with Light-Front and Euclidean calculations.

Keywords

Cite

@article{arxiv.2111.02015,
  title  = {Three-boson stability for boosted interactions towards the zero-range limit},
  author = {K. Mohseni and A. J. Chaves and D. R. da Costa and T. Frederico and M. R. Hadizadeh},
  journal= {arXiv preprint arXiv:2111.02015},
  year   = {2021}
}
R2 v1 2026-06-24T07:23:48.773Z