期刊
PHYSICAL REVIEW C
卷 102, 期 2, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.102.024311
关键词
-
资金
- U.S. Department of Energy, Office of Science, Office of Nuclear Physics [DE-SC0013365, DE-SC0013037, DE-SC0018083, DOE-NA0003885, DOE-NA0002925, DE-SC0015376]
Background: The phenomenon of reflection-asymmetric nuclear shapes is relevant to nuclear stability, nuclear spectroscopy, nuclear decays and fission, and the search for new physics beyond the standard model. Global surveys of ground-state octupole deformation, performed with a limited number of models, suggest that the number of pear-shaped isotopes is fairly limited across the nuclear landscape. Purpose: We carry out a global analysis of ground-state octupole deformations for particle-bound even-even nuclei with Z <= 110 and N <= 210 using nuclear density functional theory (DFT) with several nonrelativistic and covariant energy density functionals. In this way, we can identify the best candidates for reflection-asymmetric shapes. Methods: The calculations are performed in the frameworks of axial reflection-asymmetric Hartree-Fock-Bogoliubov theory and relativistic Hartree-Bogoliubov theory using DFT solvers employing harmonic oscillator basis expansion. We consider five Skyrme and four covariant energy density functionals. Results: We predict several regions of ground-state octupole deformation. In addition to the traditional regions of neutron-deficient actinide nuclei around Ra-224 and neutron-rich lanthanides around Ba-146, we identified vast regions of reflection-asymmetric shapes in very neutron-rich nuclei around Gd-200 and Pu-288, as well as in several nuclei around Ba-112. Our analysis suggests several promising candidates with stable ground-state octupole deformation, primarily in the neutron-deficient actinide region, that can be reached experimentally. Detailed comparison between Skyrme and covariant models is performed. Conclusions: Octupole shapes predicted in this study are consistent with the current experimental information. This work can serve as the starting point of a systematic search for parity doublets in odd-mass and odd-odd nuclei, which will be of interest in the context of new physics searches.
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