English

Improved radial basis function approach with the odd-even corrections

Nuclear Theory 2016-11-28 v1

Abstract

The radial basis function (RBF) approach has been used to improve the mass predictions of nuclear models. However, systematic deviations exist between the improved masses and the experimental data for nuclei with different odd-even parities of (ZZ, NN), i.e., the (even ZZ, even NN), (even ZZ, odd NN), (odd ZZ, even NN), and (odd ZZ, odd NN). By separately training the RBF for these four different groups, it is found that the systematic odd-even deviations can be cured in a large extend and the predictive power of nuclear mass models can thus be further improved. Moreover, this new approach can better reproduce the single-nucleon separation energies. Based on the latest version of Weizs\"acker-Skyrme model WS4, the root-mean-square deviation of the improved masses with respect to known data falls to 135135 keV, approaching the chaos-related unpredictability limit (100\sim 100 keV).

Cite

@article{arxiv.1607.02075,
  title  = {Improved radial basis function approach with the odd-even corrections},
  author = {Z. M. Niu and B. H. Sun and H. Z. Liang and Y. F. Niu and J. Y. Guo},
  journal= {arXiv preprint arXiv:1607.02075},
  year   = {2016}
}

Comments

7 pages, 5 figures

R2 v1 2026-06-22T14:48:25.549Z