Abstract
The masses of the neutron-rich copper isotopes Cu75-79 are determined using the precision mass spectrometer ISOLTRAP at the CERN-ISOLDE facility. The trend from the new data differs significantly from that of previous results, offering a first accurate view of the mass surface adjacent to the Z = 28, N = 50 nuclide Ni-78 and supporting a doubly magic character. The new masses compare very well with large-scale shell-model calculations that predict shape coexistence in a doubly magic Ni-78 and a new island of inversion for Z < 28. A coherent picture of this important exotic region begins to emerge where excitations across Z = 28 and N = 50 form a delicate equilibrium with a spherical mean field.