Comparing proton momentum distributions in A=2 and 3 nuclei via 2H 3H and 3He (e, e'p) measurements

Abstract

We report the first measurement of the (e,e'p) reaction cross-section ratios for Helium-3 (3He), Tritium (3H), and Deuterium (d). The measurement covered a missing momentum range of 40 pmiss 550 MeV/c, at large momentum transfer ( Q2 ≈ 1.9 (GeV/c)2) and xB>1, which minimized contributions from non quasi-elastic (QE) reaction mechanisms. The data is compared with plane-wave impulse approximation (PWIA) calculations using realistic spectral functions and momentum distributions. The measured and PWIA-calculated cross-section ratios for 3He/d and 3H/d extend to just above the typical nucleon Fermi-momentum (kF ≈ 250 MeV/c) and differ from each other by 20\%, while for 3He/3H they agree within the measurement accuracy of about 3\%. At momenta above kF, the measured 3He/3H ratios differ from the calculation by 20\% - 50\%. Final state interaction (FSI) calculations using the generalized Eikonal Approximation indicate that FSI should change the 3He/3H cross-section ratio for this measurement by less than 5\%. If these calculations are correct, then the differences at large missing momenta between the 3He/3H experimental and calculated ratios could be due to the underlying NN interaction, and thus could provide new constraints on the previously loosely-constrained short-distance parts of the NN interaction.