Cross sections and beam asymmetries for $\vev{e}p \to enÏ^+$ in the nucleon resonance region for $1.7 \le Q^2 \le 4.5 (GeV)^2$
arXiv:0709.1946 · doi:10.1103/PhysRevC.77.015208
Abstract
The exclusive electroproduction process $\vec{e}p \to e^\prime n Ï^+$ was measured in the range of the photon virtuality $Q^2 = 1.7 - 4.5 \rm{GeV^2}$, and the invariant mass range for the $nÏ^+$ system of $W = 1.15 - 1.7 \rm{GeV}$ using the CEBAF Large Acceptance Spectrometer. For the first time, these kinematics are probed in exclusive $Ï^+$ production from protons with nearly full coverage in the azimuthal and polar angles of the $nÏ^+$ center-of-mass system. The $nÏ^+$ channel has particular sensitivity to the isospin 1/2 excited nucleon states, and together with the $pÏ^0$ final state will serve to determine the transition form factors of a large number of resonances. The largest discrepancy between these results and present modes was seen in the $Ï_{LT'}$ structure function. In this experiment, 31,295 cross section and 4,184 asymmetry data points were measured. Because of the large volume of data, only a reduced set of structure functions and Legendre polynomial moments can be presented that are obtained in model-independent fits to the differential cross sections.