Constraint on the Ground-state Mass of 21Al and Three-Nucleon Forces

Abstract

Fragmentation cross section of 28Si + 9Be reaction at 75.8 MeV/u was analyzed for studying the decay mode of single-proton emission in 21Al (the proton-rich nucleus with neutron closed-shell of N = 8 and Tz = -5/2). With the comparison between the measured fragmentation cross section and the theoretical cross section produced by EPAX3.1a for the observed nuclei (i.e. 20Mg, 21Al and 22Si), the expected yield for a particle stable 21Al was estimated. With the exponential decay law, an upper limit of half-life of 13 ns was determined. Using the single-proton penetration model, the upper limit of single-proton separation energy of -105 keV was deduced. This deduced mass limit agrees with the microscopic calculation based on nucleon-nucleon (NN) + three-nucleon (3N) forces in sdf7/2p3/2 valence space, which indicates the importance of 3N forces in 21Al.