Spectroscopy of A=9 hyperlithium by the (e,eK+) reaction

Abstract

Missing mass spectroscopy with the (e,eK+) reaction was performed at Jefferson Laboratory's Hall C for the neutron rich hypernucleus 9 Li. The ground state energy was obtained to be B g.s.=8.840.17 stat.0.15 sys.~ MeV by using shell model calculations of a cross section ratio and an energy separation of the spin doublet states (3/2+1 and 5/2+1). In addition, peaks that are considered to be states of [8 Li(3+) s=3/2+2, 1/2+] and [8 Li(1+) s=5/2+2, 7/2+] were observed at E( no.~2)=1.740.27 stat.0.11 sys.~ MeV and E( no.~3)=3.300.24 stat.0.11 sys.~ MeV, respectively. The E( no.~3) is larger than shell model predictions by a few hundred keV, and the difference would indicate that a 5He+t structure is more developed for the 3+ state than those for the 2+ and 1+ states in a core nucleus 8 Li as a cluster model calculation suggests.