Study of resonance states of $^{11}$Be with isospectral bound state microscopic potential
arXiv:1302.5604 · doi:10.1088/0954-3899/41/9/095104
Abstract
The theoretical procedure of supersymmetric quantum mechanics (SQM) is adopted for the first time to study quasi-bound states of a weakly bound nuclear system using microscopic potential. The density dependent M3Y (DDM3Y) effective interaction was found earlier to give a satisfactory description of radioactivity, nuclear matter and scattering. In the present work, we have generated a two-body potential microscopically in a single folding model using the DDM3Y effective interaction. From this potential, SQM generated a family of isospectral potentials for $^{11}$Be ($^{10}$Be + n). We investigated the 5/2$^+$, 3/2$^-$ and 3/2$^+$ resonance states of $^{11}$Be. The experimental data and the present calculations of excitation energies of the above resonance states are found to be in good agreement.
7 pages, 6 figures