Updated systematics of intermediate-energy single-nucleon removal cross sections

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Abstract

The body of experimental measurements of intermediate-energy reactions that remove a single nucleon from a secondary beam of neutron- or proton-rich nuclei continues to grow. These data have been analyzed consistently using an approximate, eikonal-model treatment of the reaction dynamics combined with appropriate shell-model descriptions of the projectile initial state, the bound final states spectrum of the reaction residue, and single-particle removal strengths computed from their wave-function overlaps. The systematics of the ratio Rs of the measured inclusive cross section to all bound final states and the calculated cross section to bound shell-model states - in different regions of the nuclear chart and involving both very weakly bound and strongly bound valence nucleons - is important in relating the empirically deduced orbital occupancies to those from the best available shell-model predictions. Importantly, several new higher-energy measurements, for which the sudden-approximation aspect of the dynamical description is placed on an even stronger footing, now supplement the previously analyzed measurements. These additional data sets are discussed. Their Rs values are shown to conform to and reinforce the earlier-observed systematics, with no indication that the approximately linear reduction in Rs with increasing nucleon separation energy is a consequence of a breakdown of the sudden approximation.

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Tostevin, J. A., & Gade, A. (2021). Updated systematics of intermediate-energy single-nucleon removal cross sections. Physical Review C, 103(5). https://doi.org/10.1103/PhysRevC.103.054610

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