Stability beyond the neutron drip-line near the third peak of the r-process nucleosynthesis

Details Stability beyond the neutron drip-line near the third peak of the r-process nucleosynthesis Stability beyond the neutron drip-line near the third peak of the r-process nucleosynthesis

2011-01-12

arxiv.org/abs/1101.2287v3

Kuwait J. Sci. Engg. 38 (2011) 39-58

Physics

Nuclear Physics

Nuclear Theory

21 pages + 7 figures; revised version accepted for publication

Scientific paper

We have investigated the nuclear shell effects at N=126 in the region of the third peak of the r-process nucleosynthesis within the framework of the relativistic mean-field theory using the Lagrangian model NL-SV1 with the vector self-coupling of omega-meson. Our study encompasses even-even nuclei with N=110-140 in the isotopic chains of Hf (Z=72) down to Ba (Z=56). It is shown that the nuclear shell effects at N=126 remain strong even as one moves far away from the line of the beta-stability. As the neutron drip line approaches N=126, nuclei exhibit vanishingly small neutron separation energy. However, going beyond the neutron drip line, we observe an interesting feature in that some nuclei near N ~ 132-134 for the isotopic chains of Z=62-68 show enhanced neutron separation energy. This is especially pronounced for the isotopes of Gd (Z=64) and Dy (Z=66). These nuclei exhibit the phenomenon of stability beyond the neutron drip line. Our analysis of the single-particle spectrum shows that this is engendered by the deformation assumed by these nuclei with the consequence that the neutron single-particle spectrum is pushed down in energy, thus leading to enhanced stability beyond the drip line.

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