Inverse-kinematics one-neutron pickup with fast rare-isotope beams

Abstract

New measurements and reaction model calculations are reported for single neutron pickup reactions onto a fast 22Mg secondary beam at 84 MeV per nucleon. Measurements were made on both carbon and beryllium targets, having very different structures, allowing a first investigation of the likely nature of the pickup reaction mechanism. The measurements involve thick reaction targets and γ-ray spectroscopy of the projectile-like reaction residue for final-state resolution, that permit experiments with low incident beam rates compared to traditional low-energy transfer reactions. From measured longitudinal momentum distributions we show that the 12C (22Mg,23Mg+γ)X reaction largely proceeds as a direct two-body reaction, the neutron transfer producing bound 11C target residues. The corresponding reaction on the 9Be target seems to largely leave the 8Be residual nucleus unbound at excitation energies high in the continuum. We discuss the possible use of such fast-beam one-neutron pickup reactions to track single-particle strength in exotic nuclei, and also their expected sensitivity to neutron high- (intruder) states which are often direct indicators of shell evolution and the disappearance of magic numbers in the exotic regime.