English

Normal-ordering approximations and translational (non) invariance

Nuclear Theory 2021-09-01 v1

Abstract

Normal-ordering provides an approach to approximate three-body forces as effective two-body operators and it is therefore an important tool in many-body calculations with realistic nuclear interactions. The corresponding neglect of certain three-body terms in the normal-ordered Hamiltonian is known to influence translational invariance, although the magnitude of this effect has not yet been systematically quantified. In this work we study in particular the normal-ordering two-body approximation applied to a single harmonic-oscillator reference state. We explicate the breaking of translational invariance and demonstrate the magnitude of the approximation error as a function of model space parameters for 4He^4\rm{He} and 16O^{16}\rm{O} by performing full no-core shell-model calculations with and without three-nucleon forces. We combine two different diagnostics to better monitor the breaking of translational invariance. While the center-of-mass effect is shown to become potentially very large for 4He^4\rm{He}, it is also shown to be much smaller for 16O^{16}\rm{O} although full convergence is not reached. These tools can be easily implemented in studies using other many-body frameworks and bases.

Keywords

Cite

@article{arxiv.2104.14820,
  title  = {Normal-ordering approximations and translational (non) invariance},
  author = {T. Djärv and A. Ekström and C. Forssén and G. R. Jansen},
  journal= {arXiv preprint arXiv:2104.14820},
  year   = {2021}
}

Comments

13 pages, 10 figures

R2 v1 2026-06-24T01:39:43.132Z