Combined analysis of the data on cross sections and spin density matrix elements for K* photoproduction reactions
Abstract
In our earlier work [Phys. Rev. C 98, 045209 (2018)], we analyzed the differential cross-section data from the CLAS Collaboration for the reactions γ p K*+0 and γ p K*0 + using an effective Lagrangian approach. We found that a satisfactory description of the data required the inclusion of the s-channel (1905)5/2+ resonance, in addition to t-channel exchanges of K, , and K*, s-channel contributions from nucleons (N) and , u-channel exchanges of , , and *, and a generalized contact term. In the present work, we extend our analysis to incorporate the data on spin density matrix elements from the LEPS Collaboration for the γ p K*0+ reaction at photon energies Eγ = 1.85--2.96 GeV. Our goal is to impose more stringent constraints on the theoretical model and obtain a more reliable understanding of the reaction mechanisms. We obtain two fits that describe the experimental data equally well. In both fits, the (1905)5/2+ resonance plays an important role. However, the contribution from t-channel exchange is significant in one fit but negligible in the other. This finding contradicts earlier claims in the literature that the LEPS parity spin asymmetry Pσ data support a dominant role of exchange in γ p K*0+. We also present predictions for Pσ at Eγ = 8.5 GeV, which may help clarify whether exchange is indeed dominant in this reaction.
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