Emerging concepts in nuclear structure based on the shell model

TL;DR

This paper reviews emerging concepts in nuclear structure based on the shell model, highlighting how activating monopole interactions reveals new phenomena like shell evolution, shape deformation, and dripline mechanisms, aligning with experimental data.

Contribution

It introduces novel insights into nuclear structure by emphasizing the role of monopole interactions within the shell model, expanding understanding beyond traditional potential well models.

Findings

Shell evolution and type-II shell phenomena identified.

New mechanisms for nuclear dripline explained.

Predictions align with experimental observations.

Abstract

Some emerging concepts of nuclear structure are overviewed. (1) Background: the many-body quantum structure of atomic nucleus, a complex system comprising protons and neutrons (called nucleons collectively), has been studied largely based on the idea of the quantum liquid (a la Landau), where nucleons are quasiparticles moving in a (mean) potential well, with weak "residual" interactions between nucleons. The potential is rigid in general, although it can be anisotropic. While this view was a good starting point, it is time to look into kaleidoscopic aspects of the nuclear structure brought in by underlying dynamics and nuclear forces. (2) Methods: exotic features as well as classical issues are investigated from fresh viewpoints based on the shell model and nucleon-nucleon interactions. The 70-year progress of the shell-model approach, including effective nucleon-nucleon interactions, enables us to do this. (3) Results: we go beyond the picture of the solid potential well by activating the monopole interactions of the nuclear forces. This produces notable consequences in key features such as the shell/magic structure, the shape deformation, the dripline, etc. These consequences are understood with emerging concepts such as shell evolution (incl. type-II), T-plot, self-organization (for collective bands), triaxial-shape dominance, new dripline mechanism, etc. The resulting predictions and analyses agree with experiment. (4) Conclusion: atomic nuclei are surprisingly richer objects than initially thought.