Reduction of the spin-orbit splittings at the n = 28 shell closure

L Gaudefroy; O Sorlin; D Beaumel; Y Blumenfeld; Z Dombrádi; S Fortier; S Franchoo; M Gélin; J Gibelin; S Grévy; F Hammache; F Ibrahim; K W Kemper; K-L Kratz; S M Lukyanov; C Monrozeau; L Nalpas; F Nowacki; A N Ostrowski; T Otsuka; Yu-E Penionzhkevich; J Piekarewicz; E C Pollacco; P Roussel-Chomaz; E Rich; J A Scarpaci; M G St Laurent; D Sohler; M Stanoiu; T Suzuki; E Tryggestad; D Verney

doi:10.1103/PhysRevLett.97.092501

Reduction of the spin-orbit splittings at the n = 28 shell closure

Phys Rev Lett. 2006 Sep 1;97(9):092501. doi: 10.1103/PhysRevLett.97.092501. Epub 2006 Aug 30.

Affiliation

¹ IPN, IN2P3-CNRS,F- 91406 Orsay Cedex, France.

PMID: 17026356
DOI: 10.1103/PhysRevLett.97.092501

Abstract

The N = 28 shell closure has been investigated via the 46Ar(d,p)47Ar transfer reaction in inverse kinematics. Energies and spectroscopic factors of the neutron p(3/2), p(1/2), and f(5/2) states in 47Ar were determined and compared to those of the 49Ca isotone. We deduced a reduction of the N = 28 gap by 330(90) keV and spin-orbit weakenings of approximately 10(2) and 45(10)% for the f and p states, respectively. Such large variations for the f and p spin-orbit splittings could be accounted for by the proton-neutron tensor force and by the density dependence of the spin-orbit interaction, respectively. This contrasts with the picture of the spin-orbit interaction as a surface term only.