Exploring the mass surface near the rare-earth abundance peak via precision mass measurements at JYFLTRAP

M. Vilen, J. M. Kelly, A. Kankainen, M. Brodeur, A. Aprahamian, L. Canete, de Groote, de Roubin, T. Eronen, A. Jokinen, I. D. Moore, M. Mumpower, D. A. Nesterenko, O'Brien, Pardo Perdomo, H. Penttila, M. Reponen, S. Rinta-Antila, R. Surman

Published PRC 101, 034312 (2020)

The JYFLTRAP double Penning trap at the Ion Guide Isotope Separator On-Line (IGISOL) facility has been used to measure the atomic masses of 13 neutron-rich rare-earth isotopes. Eight of the nuclides, $^{161}$Pm $^{163}$Sm $^{164}$,165}$Eu, $^{167}$Gd, $^{165}$,$^{167}$,$^{168}$Tb, were measured for the first time. The systematics of the mass surface has been studied via one- and two-neutron separation energies as well as neutron pairing-gap and shell-gap energies. The proton-neutron pairing strength has also been investigated. The impact of the new mass values on the astrophysical rapid neutron capture process has been studied. The calculated abundance distribution results in a better agreement with the solar abundance pattern near the top of the rare-earth abundance peak at around $A\sim 165$.



nuclear masses experiment

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