Nuclear deformation effect on the binding energies in heavy ions

Abstract

Nuclear deformation effects on the binding energies in heavy ions are investigated. Approximate formulas for the nuclear-size correction and the isotope shift for deformed nuclei are derived. Combined with direct numerical evaluations, these formulas are employed to reanalyse experimental data on the nuclear-charge-distribution parameters in 238U and to revise the nuclear-size corrections to the binding energies in H- and Li-like 238U. As a result, the theoretical uncertainties for the ground-state Lamb shift in 238U91+ and for the 2p1/2-2s transition energy in 238U89+ are significantly reduced. The isotope shift of the 2pj-2s transition energies for 142Nd57+ and 150Nd57+ is also evaluated including nuclear size and nuclear recoil effects within a full QED treatment.