First Observation of Large Missing-Momentum (e,e'p) Cross-Section Scaling and the onset of Correlated-Pair Dominance in Nuclei

Abstract

We report the first measurement of xB-scaling in (e,e'p) cross-section ratios off nuclei relative to deuterium at large missing-momentum of 350 ≤ pmiss ≤ 600 MeV/c. The observed scaling extends over a kinematic range of 0.7 ≤ xB ≤ 1.8, which is significantly wider than 1.4 ≤ xB ≤ 1.8 previously observed for inclusive (e,e') cross-section ratios. The xB-integrated cross-section ratios become constant (i.e., scale) beginning at pmiss≈ kF, the nuclear Fermi momentum. Comparing with theoretical calculations we find good agreement with Generalized Contact Formalism calculations for high missing-momentum (> 375 MeV/c), suggesting the observed scaling results from interacting with nucleons in short-range correlated (SRC) pairs. For low missing-momenta, mean-field calculations show good agreement with the data for pmiss kF, and suggest that contributions to the measured cross-section ratios from scattering off single, un-correlated, nucleons are non-negligible up to pmiss≈ 350 MeV/c. Therefore, SRCs become dominant in nuclei at pmiss≈ 350 MeV/c, well above the nuclear Fermi Surface of kF ≈ 250 MeV/c.