Atomic masses of intermediate-mass neutron-deficient nuclei with relative uncertainty down to 35-ppb via multireflection time-of-flight mass spectrograph

Abstract

High-precision mass measurements of 63Cu, 64-66Zn, 65Ga, 65-67Ge, 67As, 78,81Br, 80Rb, and 79Sr were performed utilizing a multireflection time-of-flight mass spectrograph combined with the gas-filled recoil ion separator GARIS-II. In the case of 65Ga, a mass uncertainty of 2.1 keV, corresponding to a relative precision of δ m / m = 3.5×10-8, was obtained and the mass value is in excellent agreement with the 2016 Atomic Mass Evaluation. For 67Ge and 81Br, where masses were previously deduced through indirect measurements, discrepancies with literature values were found. The feasibility of using this device for mass measurements of nuclides more neutron-deficient side, which have significant impact on the rp-process pathway, is discussed.