Effects of strange molecular partners of Pc states in γ p K reactions

Abstract

Our previous studies revealed evidence of the strange molecular partners of Pc states, N(2080)3/2- and N(2270)3/2-, in the γ p K*+ 0 / K*0 + and γ p φ p reactions. Motivated by the differential cross-section data for γ p K+ 0 from CLAS 2010, which exhibits some bump structures at W ≈ 1875, 2080 and 2270 MeV, we extend our previous analysis by investigating the effects of N(1535)1/2-, N(1875)3/2-, N(2080)1/2- \&\ 3/2- and N(2270)1/2- , 3/2- \&\ 5/2-, as strange partners of Pc molecular states, in the reactions γ p K+ 0 and γ p K0 +. The theoretical model employed in this study utilizes an effective Lagrangian approach in the tree-level Born approximation. It contains the contributions from s-channel with exchanges of N, , N* (including the hadronic molecules with hidden strangeness), and *; t-channel; u-channel; and the generalized contact term. The results based on the final fitted parameters are in good agreement with all available experimental data of both cross-sections and polarization observables for γ p K+ 0 and γ p K0 +. Notably, the s-channel exchanges of molecules significantly contribute to the bump structures in cross-sections for γ p K at W ≈ 1900, 2080 and 2270 MeV, and show considerable coherence with contributions from s-channel exchanges of general resonances to construct the overall structures of cross-sections. More abundant experiments, particularly for the reaction γ p K0 +, are necessary to further strengthen the constraints on the theoretical models.

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