English

Algorithm for the asymptotic nuclear coefficients calculations using phase shift data for charged particles scattering

Nuclear Theory 2017-09-06 v2

Abstract

A new algorithm for the asymptotic nuclear coefficients calculation, which we call the Δ\Delta-method, is proved and developed. This method was proposed in Ref. [O. L. Ram\'irez Su\'arez and J.-M. Sparenberg, arXiv: 1602.04082 [nucl-th] (2016)] but no proof was given. We apply it to the bound state situated near the channel threshold when the Sommerfeld parameter is quite large within the experimental energy region. As a result, the value of the conventional effective-range function Kl(k2)K_l(k^2) is actually defined by the Coulomb term. One of the resulting effects is the wrong description of energy behavior of the elastic scattering phase shift δl\delta_l reproduced from the fitted total effective-range function Kl(k2)K_l(k^2). This leads to an improper value of the asymptotic normalization coefficient (ANC) value. No such problem arises if we fit only the nuclear term. The difference between the total effective-range function and the Coulomb part at real energies is the same as the nuclear term. Then we can proceed using just this Δ\Delta-method to calculate the pole position values and the ANC. We apply it to the vertices 4He+12C16O^4\rm{He}+ {^{12}\rm{C}}\longleftrightarrow {^{16}\rm{O}} and 3He+4He7Be^3\rm{He}+ {^4\rm{He}}\longleftrightarrow {^7\rm{Be}}. The calculated ANCs can be used to find the radiative capture reaction cross sections of the transfers to the 16O^{16}\rm{O} bound final states as well as to the 7Be7Be^7\rm{Be}\longleftrightarrow {^7\rm{Be}}. The calculated ANCs can be used to find the radiative capture reaction cross sections of the transfers to the 16O^{16}\rm{O} bound final states as well as to the 7Be^7\rm{Be}.

Keywords

Cite

@article{arxiv.1702.04933,
  title  = {Algorithm for the asymptotic nuclear coefficients calculations using phase shift data for charged particles scattering},
  author = {Yu. V. Orlov and B. F. Irgaziev and Jameel-Un Nabi},
  journal= {arXiv preprint arXiv:1702.04933},
  year   = {2017}
}

Comments

11 pages, 6 figures, 1 table

R2 v1 2026-06-22T18:20:06.207Z