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One-neutron halo structure of 29Ne

J. G. Li, N. Michel, H.H. Li, W. Zuo

2022Physics Letters B13 citationsDOIOpen Access PDF

Abstract

We have applied the Gamow shell model to calculate nuclear observables of 26−31Ne isotopes pertaining to one-neutron halo structure, these nuclei being situated close to neutron drip-line. As both many-body correlations and continuum coupling are taken into account in that approach, halo structure can be analyzed properly. Our calculations provide good descriptions of 26−31Ne, where asymptotic behavior is crucial for that matter. One-body density, neutron root-mean-square radii of 26−31Ne, and one-neutron overlap functions of 29,31Ne have been calculated as well. Our results support the presence of a one-neutron p-wave halo in 31Ne, already pointed out experimentally. A similar situation also occurs in the ground state of 29Ne, which is mainly a p-wave valence neutron coupled to the inner 28Ne core. The 3/2+ excited state of 29Ne, which is dominated by a d-wave valence neutron, has also been considered. A larger radius and more extended wave function occur for the ground state of 29Ne when compared to its 3/2+ first excited state. The present results suggest that 29Ne is a good candidate for one-neutron p-wave halo in the medium-mass region.

Topics & Concepts

HaloNeutronPhysicsExcited stateHalo nucleusGround stateValence (chemistry)Wave functionAtomic physicsRADIUSNuclear physicsAstrophysicsGalaxyQuantum mechanicsComputer scienceComputer securityNuclear physics research studiesNuclear Physics and ApplicationsHigh-pressure geophysics and materials
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