Litcius/Paper detail

The neutron-rich edge of the nuclear landscape: Experiment and theory.

Frédéric Nowacki, Alexandre Obertelli, Alfredo Poves

2021Progress in Particle and Nuclear Physics91 citationsDOIOpen Access PDF

Abstract

In this review, we describe the experimental facilities and methods which make it possible to produce and measure the properties of the extreme neutron-rich nuclei. We then develop the theoretical framework that predicts and explains these properties; the shell-model approach with large-scale configuration interaction (mixing) SM-CI, with special emphasis in the competition between the spherical mean field and the nuclear correlations (mainly pairing and quadrupole-quadrupole). The SU(3) related symmetry properties of the latter are treated in detail as they will show to be of great heuristic value. We explore the Islands of Inversion (IoI) at N = 20 and N = 28. We make a side excursion into the heavier Calcium and Potassium isotopes, to discuss current issues on shell evolution and new magic numbers far from stability. We revisit the N = 40 Island of Inversion and extrapolate the successful predictions of the LNPS model to 60Ca. We discuss the doubly magic nucleus 78Ni, its shape coexistence and the prospect of a new IoI at N = 50 below Z = 28. Finally, we examine the behaviour of the N = 70 and N = 82 neutron closures as the neutron drip line is approached.

Topics & Concepts

PhysicsPairingExcursionNeutronInversion (geology)Statistical physicsMean field theoryNuclear shell modelTheoretical physicsEnhanced Data Rates for GSM EvolutionLine (geometry)Nuclear drip lineSymmetry (geometry)Magnetic fieldNuclear physicsMAGIC (telescope)Point reflectionMeasure (data warehouse)Nuclear structureClassification of discontinuitiesComputational physicsSymmetry breakingNuclear reactionField (mathematics)Ising modelRotational symmetryMagic number (chemistry)Condensed matter physicsNuclear physics research studiesCold Fusion and Nuclear ReactionsQuantum Chromodynamics and Particle Interactions