The roles of three-nucleon force and continuum coupling in mirror symmetry breaking of oxygen mass region

S. Zhang, Y. Z. Ma, J. G. Li, B. S. Hu, Q. Yuan, Z. H. Cheng, F. R. Xu

Research output: Contribution to journalArticlepeer-review

21 Scopus citations

Abstract

With both three-nucleon force and continuum coupling included, we have developed a self-consistent ab initio Gamow shell model within the Gamow Hartree-Fock (GHF) basis obtained by the realistic interaction itself. With the chiral two-nucleon N3LO and three-nucleon N2LO interactions, the Gamow shell model has been applied to the mirror systems of Z=8 neutron-rich isotopes and N=8 proton-rich isotones, giving good agreements with data in binding energies, dripline positions and excitation spectra. The GHF calculated that the 0d3/2, 1s1/2 and 1p3/2 orbitals are resonances. The resonance states and their interplay with nonresonant continua play a crucial role in the descriptions of nuclei around driplines. Excitation spectra and Thomas-Ehrman shifts observed can be better described when both three-nucleon force and continuum coupling are considered in calculations. The three-nucleon force and continuum coupling produce a combined effect on the Thomas-Ehrman shift, e.g., for the 1/2+ resonance level of 19Na. The calculations help the understandings of related nuclear astrophysical processes.

Original languageEnglish
Article number136958
JournalPhysics Letters B
Volume827
DOIs
StatePublished - Apr 10 2022
Externally publishedYes

Keywords

  • Continuum coupling
  • Gamow shell model
  • Mirror nuclei
  • Oxygen mass region
  • Thomas-Ehrman shift
  • Three-nucleon force

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