The α-Decay Chains of the $^{287, 288}115$ Isotopes using Relativistic Mean Field Theory

Details The α-Decay Chains of the $^{287, 288}115$ Isotopes using Relativistic Mean Field Theory The α-Decay Chains of the $^{287, 288}115$ Isotopes using Relativistic Mean Field Theory

2011-11-28

arxiv.org/abs/1111.6500v1

Int. J. Mod. Phys. 20 (2011) 2217

Physics

Nuclear Physics

Nuclear Theory

12 Pages 6 Figures 3 Tables

Scientific paper

We study the binding energy, root-mean-square radius and quadrupole deformation parameter for the synthesized superheavy element Z = 115, within the formalism of relativistic mean field theory. The calculation is dones for various isotopes of Z = 115 element, starting from A = 272 to A = 292. A systematic comparison between the binding energies and experimental data is made.The calculated binding energies are in good agreement with experimental result. The results show the prolate deformation for the ground state of these nuclei. The most stable isotope is found to be 282115 nucleus (N = 167) in the isotopic chain. We have also studied Q{\alpha} and T{\alpha} for the {\alpha}-decay chains of $^{287, 288}$115.

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