Structure of the fgr photoproduction amplitude at a few GeV
1999
20 pages
Published in:
- Phys.Rev.C 60 (1999) 035205
Citations per year
Abstract: (APS)
The structure of the φ photoproduction amplitude in the s∼2−5GeV region is analyzed based on Pomeron-exchange and meson-exchange mechanisms. The SU(3) symmetry and the φ decay widths are exploited to determine the parameters that are needed to predict the amplitudes due to pseudoscalar mesons (π0,η) exchange, scalar mesons (σ,a0,f0) exchange, and the φ radiation from the nucleon. In addition to the universally accepted Pomeron exchange with an intercept α(0)∼1.08, we investigate the role of a second Pomeron with α(0)<0, as inspired by the glueball (Jπ=0+,Mb2∼3GeV2) predicted by the lattice QCD calculation and dual Ginsburg-Landau model. It is found that the existing limited data at low energies near threshold can accommodate either the second Pomeron or the scalar mesons exchange. The differences between these two competing mechanisms are shown to have profound effects on various density matrices which can be used to calculate the cross sections as well as various single and double polarization observables. We predict a definite isotopic effect: polarization observables of φ photoproduction on the proton and neutron targets can have differences of a factor 2 and more.- photon p: exclusive reaction
- photon n: exclusive reaction
- Phi(1020): photoproduction
- amplitude analysis
- pomeron: exchange
- meson: exchange
- symmetry: SU(3)
- Phi(1020): width
- quantum chromodynamics
- lattice field theory
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