α + 92Zr cluster structure in 96Mo

Abstract

In the evaluation of the half-life of the neutrinoless double-β decay (0ββ) of a doubly closed-subshell nucleus 96Zr, the structure of the nucleus 96Mo is essentially important. The α-clustering aspects of 96Mo are investigated for the first time. By studying the nuclear rainbows in α scattering from 92Zr at high energies and the characteristic structure of the excitation functions at the extreme backward angle at the low-energy region, the interaction potential between the α particle and the 92Zr nucleus is determined well in the double folding model. The validity of the double folding model was reinforced by studying α scattering from neighboring nuclei 90Zr, 91Zr, and 94Zr. The double-folding-model calculations reproduced well all the observed angular distributions over a wide range of incident energies and the characteristic excitation functions. By using the obtained potential the α +92Zr cluster structure of 96Mo is investigated in the spirit of a unified description of scattering and structure. The existence of the second-higher nodal band states with the α+ 92Zr cluster structure, in which two more nodes are excited in the relative motion compared with the ground band, is demonstrated. The calculation reproduces well the ground-band states of 96Mo in agreement with experiment. The experimental B(E2) value of the transition in the ground band is also reproduced well. The effect of α clustering in 96Mo on the the half-life of the 0ββ double-β decay of 96Zr is discussed.