Observation of Tensor-Driven High-Momentum Neutrons in 16O via (p,d) Reactions and Zero-Degree Deuteron Momentum Spectroscopy

Abstract

The 16O(p,d)15O reaction has been studied at 0 using 403-, 604-, 907- and 1209-MeV protons, comparing cross sections populating positive- and negative-parity states in 15O. Transitions to positive-parity states exhibit strong sensitivity to high-momentum neutrons, while negative-parity transitions show much smaller effects. The cross-section ratio between positive- and negative-parity states rises sharply with momentum transfer, matching theoretical predictions that include tensor interactions, particularly the peak near 2~fm-1 for the 5/2+ to ground-state ratio. These results highlight 0 neutron-pickup reactions as a sensitive probe for tensor-driven high-momentum components, paving the way for studies in exotic nuclei via radioactive beams.