Two-neutron knockout from neutron-deficient $^{34}$Ar, $^{30}$S, and $^{26}$Si
arXiv:nucl-ex/0607017 · doi:10.1103/PhysRevC.74.021303
Abstract
Two-neutron knockout reactions from nuclei in the proximity of the proton dripline have been studied using intermediate-energy beams of neutron-deficient $^{34}$Ar, $^{30}$S, and $^{26}$Si. The inclusive cross sections, and also the partial cross sections for the population of individual bound final states of the $^{32}$Ar, $^{28}$S and $^{24}$Si knockout residues, have been determined using the combination of particle and $γ$-ray spectroscopy. Similar to the two-proton knockout mechanism on the neutron-rich side of the nuclear chart, these two-neutron removal reactions from already neutron-deficient nuclei are also shown to be consistent with a direct reaction mechanism.
Phys. Rev. C, rapid communication, in press