English

Relativistic R matrix and continuum shell model

Nuclear Theory 2015-06-19 v1

Abstract

Background: The RR matrix formalism of Lane and Thomas has proven to be a convenient reaction theory for solving many-coupled channel systems. The theory provides solutions to bound states, scattering states, and resonances for microscopic models in one formalism. Purpose: The first purpose is to extend this formalism to the relativistic case so that the many-coupled channels problem may be solved for systems in which binary breakup channels satisfy a relative Dirac equation. The second purpose is to employ this formalism in a relativistic continuum shell model. Methods: Expressions for the collision matrix and the scattering amplitude, from which observables may be calculated, are derived. The formalism is applied to the 1p-1h relativistic continuum shell model with an interaction extracted from relativistic mean-field theory. Results: The simplest of the σ+ω+ρ\sigma +\omega +\rho exchange interactions produces a good description of the single-particle energies in 16^{16}O and 90^{90}Zr and a reasonable description of proton scattering from 15^{15}N. Conclusions: The development of a calculable, relativistic RR matrix and its implementation in a 1p1h1p-1h relativistic continuum shell model provide a simple relatively self-consist, physically justifiable model for use in knockout reactions.

Keywords

Cite

@article{arxiv.1404.4170,
  title  = {Relativistic R matrix and continuum shell model},
  author = {J. Grineviciute and Dean Halderson},
  journal= {arXiv preprint arXiv:1404.4170},
  year   = {2015}
}
R2 v1 2026-06-22T03:52:03.190Z