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Data analysis techniques, differential cross sections, and spin density matrix elements for the reaction $γp \rightarrow ϕp$

arXiv:1403.2110 · doi:10.1103/PhysRevC.89.055208

Abstract

High-statistics measurements of differential cross sections and spin density matrix elements for the reaction $γp \to ϕp$ have been made using the CLAS detector at Jefferson Lab. We cover center-of-mass energies ($\sqrt{s}$) from 1.97 to 2.84 GeV, with an extensive coverage in the $ϕ$ production angle. The high statistics of the data sample made it necessary to carefully account for the interplay between the $ϕ$ natural lineshape and effects of the detector resolution, that are found to be comparable in magnitude. We study both the charged- ($ϕ\to K^+ K^-$) and neutral- ($ϕ\to K^0_S K^0_L$) $K\overline{K}$ decay modes of the $ϕ$. Further, for the charged mode, we differentiate between the cases where the final $K^-$ track is directly detected or its momentum reconstructed as the total missing momentum in the event. The two charged-mode topologies and the neutral-mode have different resolutions and are calibrated against each other. Extensive usage is made of kinematic fitting to improve the reconstructed $ϕ$ mass resolution. Our final results are reported in 10- and mostly 30-MeV-wide $\sqrt{s}$ bins for the charged- and the neutral-mode, respectively. Possible effects from $K^+ Λ^\ast$ channels with $p K\overline{K}$ final-states are discussed. These present results constitute the most precise and extensive $ϕ$ photoproduction measurements to date and in conjunction with the $ω$ photoproduction results recently published by CLAS, will greatly improve our understanding of low energy vector meson photoproduction.

38 pages, 36 figures. arXiv admin note: substantial text overlap with arXiv:1006.0374