Structure of the doubly magic nuclei 208Pb and 266Pb from ab initio computations

Abstract

Theoretical studies indicate that the superheavy neutron-rich nucleus 266\ 82Pb184 is doubly magic and at the neutron drip line. While its density distributions and single-particle energies have been computed, the structure of this nucleus is yet unknown. We perform ab initio computations of 266Pb using an interaction from an effective field theory of quantum chromodynamics tuned only on properties of nuclei with A ≤ 4. We validate our theoretical framework by computing the first 2+ and 3- excited states of 208Pb, finding agreement with experimental data. We confirm that 266Pb is doubly magic and show that its 3- state, located below the 2+ state, exhibits an excitation gap of 2.6 MeV with respect to the ground state. Our calculations also suggest that this nucleus is at the neutron drip line.