High-precision mass measurement of 56Cu and the redirection of the rp-process flow

Abstract

We report the mass measurement of 56Cu, using the LEBIT 9.4T Penning trap mass spectrometer at the National Superconducting Cyclotron Laboratory at Michigan State University. The mass of 56Cu is critical for constraining the reaction rates of the 55Ni(p,γ)56Cu(p,γ)57Zn(β+)57Cu bypass around the 56Ni waiting point. Previous recommended mass excess values have disagreed by several hundred keV. Our new value, ME=-38 626.7(6.4) keV, is a factor of 30 more precise than the suggested value from the 2012 atomic mass evaluation [Chin. Phys. C 36, 1603 (2012)], and more than a factor of 12 more precise than values calculated using local mass extrapolations, while agreeing with the newest 2016 atomic mass evaluation value [Chin. Phys. C 41, 030003 (2017)]. The new experimental average was used to calculate the astrophysical 55Ni(p,γ) and 57Zn(γ,p) reaction rates and perform reaction network calculations of the rp-process. These show that the rp-process flow redirects around the 56Ni waiting point through the 55Ni(p,γ) route, allowing it to proceed to higher masses more quickly and resulting in a reduction in ashes around this waiting point and an enhancement to higher-mass ashes.