Addendum to predicting the photoproduction observables by using the multipoles approach

T. Mart

doi:10.1093/ptep/ptz042

Addendum to predicting the photoproduction observables by using the multipoles approach

T. Mart

Department of Physics

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

We present an addendum to our previous paper to improve the performance of the proposed isobar model in describing the ? + n ? K0 + reaction observables. Since two new data sets have become available for this reaction channel that show sizable discrepancies, i.e.The CLAS and MAMI data, we propose three different models, M1, M2, and M3, obtained from including the CLAS, MAMI, and both data sets, respectively, in the fitting database. The new models can nicely describe the ? + p ? K+ + observables, as in the case of the previous model, but significantly improve the agreement with the new ? + n ? K0 + cross section data. The extracted resonance properties in the present models can be well constrained within the current Particle Data Group estimates. The different contributions of the background and resonance terms in the previous and present calculations are thoroughly discussed. A brief discussion on the problem of data discrepancy is also presented.

Original language	English
Article number	069101
Journal	Progress of Theoretical and Experimental Physics
Volume	2019
Issue number	6
DOIs	https://doi.org/10.1093/ptep/ptz042
Publication status	Published - 16 Jun 2019

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abstract = "We present an addendum to our previous paper to improve the performance of the proposed isobar model in describing the ? + n ? K0 + reaction observables. Since two new data sets have become available for this reaction channel that show sizable discrepancies, i.e.The CLAS and MAMI data, we propose three different models, M1, M2, and M3, obtained from including the CLAS, MAMI, and both data sets, respectively, in the fitting database. The new models can nicely describe the ? + p ? K+ + observables, as in the case of the previous model, but significantly improve the agreement with the new ? + n ? K0 + cross section data. The extracted resonance properties in the present models can be well constrained within the current Particle Data Group estimates. The different contributions of the background and resonance terms in the previous and present calculations are thoroughly discussed. A brief discussion on the problem of data discrepancy is also presented.",

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N2 - We present an addendum to our previous paper to improve the performance of the proposed isobar model in describing the ? + n ? K0 + reaction observables. Since two new data sets have become available for this reaction channel that show sizable discrepancies, i.e.The CLAS and MAMI data, we propose three different models, M1, M2, and M3, obtained from including the CLAS, MAMI, and both data sets, respectively, in the fitting database. The new models can nicely describe the ? + p ? K+ + observables, as in the case of the previous model, but significantly improve the agreement with the new ? + n ? K0 + cross section data. The extracted resonance properties in the present models can be well constrained within the current Particle Data Group estimates. The different contributions of the background and resonance terms in the previous and present calculations are thoroughly discussed. A brief discussion on the problem of data discrepancy is also presented.

AB - We present an addendum to our previous paper to improve the performance of the proposed isobar model in describing the ? + n ? K0 + reaction observables. Since two new data sets have become available for this reaction channel that show sizable discrepancies, i.e.The CLAS and MAMI data, we propose three different models, M1, M2, and M3, obtained from including the CLAS, MAMI, and both data sets, respectively, in the fitting database. The new models can nicely describe the ? + p ? K+ + observables, as in the case of the previous model, but significantly improve the agreement with the new ? + n ? K0 + cross section data. The extracted resonance properties in the present models can be well constrained within the current Particle Data Group estimates. The different contributions of the background and resonance terms in the previous and present calculations are thoroughly discussed. A brief discussion on the problem of data discrepancy is also presented.

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Addendum to predicting the photoproduction observables by using the multipoles approach

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