Physical Implications of the Extrapolation and Statistical Bootstrap of the Nucleon Structure Function Ratio F2nF2p for Mirror Nuclei 3He and 3H

Abstract

A nuclear physics example of statistical bootstrap is used on the MARATHON data nucleon structure function ratio, F2nF2p, in the quark momentum fraction xB→0 and xB→1 regions. The extrapolated F2 ratio value as quark momentum fraction xB→ 1 approaches 0.4 and this value is compared to theoretical predictions. The extrapolated ratio when xB→ 0 favors the simple model of isospin symmetry with the complete dominance of seaquarks at low momentum fraction. At high-xB, the proton quark distribution function ratio d/u is derived from the x→ 1 ratio F2nF2p→ 0.4 and found to be d/u → 1/6. Our extrapolated values for both the F2nF2p ratio and the d/u parton distribution function ratio most closely match perturbative QCD values from quark counting and helicity conservation arguments but still differ by roughly 7\%. The mismatch to theoretical predictions may be ameliorated if two compatible models act simultaneously in the nucleon wavefunction. One such example is nucleon wavefunctions composed of a linear combination of a quark-diquark state and a 3-valence quark correlated state with coefficients that combine to give the extrapolated F2 ratio of 0.4.