Portal de Periódicos da CAPES

Effective interaction for N= 50 isotones

1988; American Institute of Physics; Volume: 37; Issue: 3 Linguagem: Inglês

10.1103/physrevc.37.1256

1538-4497

Xiangdong Ji, B. H. Wildenthal,

Atomic and Molecular Physics

Standard shell-model techniques of constructing and diagonalizing Hamiltonians in finite Hilbert spaces have been used to treat the N=50 isotones with an expanded model space and a new empirical effective interaction. A vector space with active 0${f}_{5/2}$, 1${p}_{3/2}$, 1${p}_{1/2}$, and 0${g}_{9/2}$ proton orbits is used to model the low-lying excitations of these nuclei. The effective interaction is obtained by varying 35 parameters, distributed over the 65 two-body matrix elements and four single particle energies of the model space, to fit over 170 experimental energy levels in nuclei from $^{82}\mathrm{Ge}$ through $^{96}\mathrm{Pd}$. Nearly all of the experimental level energies of N=50 nuclei involved in the fit are well reproduced by the final interaction.