English

Quadrupole Strength in Isobaric Triplets

Nuclear Theory 2025-12-23 v2

Abstract

The dependence of the E2E2 matrix elements on isospin projection TzT_z is linked to the conservation of the isospin symmetry. To study this conjecture, we calculated the B(E2:2+0+){B(E2: 2^+ \rightarrow 0^+)} rates for the even-even T=1T=1 mirror nuclei with 4242 \leq AA \leq 9898 within nuclear density functional theory, employing the generalized Bohr Hamiltonian, and carrying out angular momentum projection. We demonstrated that collective effects are crucial for describing experimental data near the N=ZN=Z line without invoking explicit beyond-Coulomb isospin symmetry-breaking corrections. We also determined the B(E2)B(E2\downarrow) values for odd-odd Tz=0T_z=0 nuclei 70Br^{70}Br and 78Y^{78}Y in doubly-blocked configurations. We discussed the requirements for accurately describing isobaric analog states and emphasized how current theoretical results should be interpreted within the study of isospin symmetry across isospin triplets.

Keywords

Cite

@article{arxiv.2505.15375,
  title  = {Quadrupole Strength in Isobaric Triplets},
  author = {B. C. Backes and J. Dobaczewski and D. Muir and W. Nazarewicz and P. -G. Reinhard and M. A. Bentley and R. Wadsworth},
  journal= {arXiv preprint arXiv:2505.15375},
  year   = {2025}
}
R2 v1 2026-07-01T02:28:08.840Z