Abstract
The new $\gamma n\to K^0\Lambda$ data obtained from the CLAS and MAMI collaborations are analyzed by employing an effective Lagrangian method. The constructed model can describe all available experimental data in both $\gamma p \to K^+\Lambda$ and $\gamma n\to K^0\Lambda$ channels, simultaneously. The background part of the model is built from the appropriate intermediate states involving the nucleon, kaon, and hyperon exchanges, whereas the resonance part is constructed from the consistent interaction Lagrangians and propagators. To check the performance of the model a detailed comparison between the calculated observables and experimental data in both isospin channels is presented, from which a nice agreement can be observed. The discrepancy between the CLAS and MAMI data in the $\gamma n\to K^0\Lambda$ channel is analyzed by utilizing three different models; M1, M2, and M3 that fit the CLAS, MAMI, and both CLAS and MAMI data sets, respectively. The effect of this discrepancy is studied by investigating the significance of individual nucleon resonances and the predicted beam-target helicity asymmetry $E$ that has been measured by the CLAS collaboration recently. It is found that the $N(1720)P_{13}$, $N(1900)P_{13}$, and $N(2060)D_{15}$ resonances are significant for improving the agreement between model calculation and data. This result is relatively stable to the choice of the model. The helicity asymmetry $E$ can be better explained by the models M1 and M3. Finally, the effect of the $N(1680)P_{11}$ narrow resonance on the cross section of both isospin channels is explored. It is found that the effect is more sensitive in the $\gamma n\to K^0\Lambda$ channel. In this case the model M3, that fits both CLAS and MAMI data, yields a more realistic effect.
Highlights
Among the six possible isospin channels in kaon photoproduction, the γp → KþΛ channel is the first channel and most studied channel during the last six decades
This paper provides a report on the simultaneous analysis of the γp → KþΛ and γn → K0Λ channels by using a covariant isobar model
Our present analysis provides important improvement to this model, i.e., including the γp → KþΛ channel, simultaneously, using the effective Lagrangian method for both background and resonance terms in a consistent fashion, and incorporating more experimental data
Summary
Among the six possible isospin channels in kaon photoproduction, the γp → KþΛ channel is the first channel and most studied channel during the last six decades. The KþΛ channel has the largest experimental database collected from different measurements performed in the modern accelerator facilities, such as CEBAF in Jefferson Lab, SPring in Osaka, MAMI in Mainz, ELSA in Bonn, and ESRF in Grenoble These accurate data allow for detailed analyses of certain nucleon and delta resonances in kaon photoproduction that are not available in. Our present analysis provides important improvement to this model, i.e., including the γp → KþΛ channel, simultaneously, using the effective Lagrangian method for both background and resonance terms in a consistent fashion, and incorporating more experimental data. II we present the formalism used in our model This includes the interaction Lagrangian, propagators, the isospin symmetry that relates the γp → KþΛ to the γn → K0Λ channels, the nucleon and hyperon resonances used in the model, as well as the observables used in the fitting database.
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