Coulomb Excitation of 80Sr and the limits of the N = Z = 40 island of deformation

Abstract

The region of N≈ Z≈ 40 has long been associated with strongly deformed nuclear configurations. The presence of this strong deformation was recently confirmed through lifetime measurements in N≈ Z Sr and Zr nuclei. Theoretically, however, these nuclei present a challenge due to the vast valence space required to incorporate all deformation driving interactions. Recent state-of-the-art predictions indicate a near axial prolate deformation for N=Z and N=Z+2 nuclei between N=Z=36 and N=Z=40. In this work we investigate the shores of this island of deformation through a sub-barrier Coulomb excitation study of the N=Z+4 nucleus, 80Sr. Extracting a spectroscopic quadrupole moment of Qs(2+1) = 0.45+0.83-0.88~eb, we find that 80Sr is inconsistent with significant axial prolate deformation. This indicates that the predicted region of strong prolate deformation around N=Z=40 is tightly constrained to the quartet of nuclei: 76,78Sr and 78,80Zr.