Structure of the lightest tin isotopes

A. Schwenk; C. Stumpf; G. Hagen; G. R. Jansen; J. D. Holt; J. Simonis; R. Roth; S. R. Stroberg; T. D. Morris; T. Papenbrock

arxiv: 1709.02786 · v1 · pith:GHBJXFKCnew · submitted 2017-09-08 · ⚛️ nucl-th · nucl-ex

Structure of the lightest tin isotopes

T. D. Morris , J. Simonis , S. R. Stroberg , C. Stumpf , G. Hagen , J. D. Holt , G. R. Jansen , T. Papenbrock

show 2 more authors

R. Roth A. Schwenk

This is my paper

classification ⚛️ nucl-th nucl-ex

keywords datadoublymagicresultsstructurearoundavailablecollectivity

0 comments

read the original abstract

We link the structure of nuclei around $^{100}$Sn, the heaviest doubly magic nucleus with equal neutron and proton numbers ($N=Z=50$), to nucleon-nucleon ($NN$) and three-nucleon ($NNN$) forces constrained by data of few-nucleon systems. Our results indicate that $^{100}$Sn is doubly magic, and we predict its quadrupole collectivity. We present precise computations of $^{101}$Sn based on three-particle--two-hole excitations of $^{100}$Sn, and reproduce the small splitting between the lowest $J^\pi=7/2^+$ and $5/2^+$ states. Our results are consistent with the sparse available data.

This paper has not been read by Pith yet.

Structure of the lightest tin isotopes

discussion (0)