Amplitude analysis of gamma n --> pi- p data above 1 GeV
W. Chen (Duke U.), H. Gao (Duke U.), W. J. Briscoe (GW), D. Dutta, (MSU), A. E. Kudryavtsev (ITEP/GW), M. Mirazita (INFN), M. Paris (LANL), P., Rossi (INFN), S. Stepanyan (JLab), I. I. Strakovsky (GW), V. E. Tarasov, (ITEP), and R. L. Workman (GW)
TL;DR
This paper presents a new extraction of nucleon resonance couplings from gamma n --> pi- p data above 1 GeV, utilizing an expanded dataset and improved analysis techniques to refine resonance parameters.
Contribution
It introduces a novel analysis of neutron photoproduction data with enhanced cross sections and a new final-state interaction model, leading to updated resonance coupling values.
Findings
Significant changes in high-energy cross sections and amplitudes.
Enhanced understanding of nucleon resonance couplings.
Improved data analysis methods for gamma n --> pi- p.
Abstract
We report a new extraction of nucleon resonance couplings using pi- photoproduction cross sections on the neutron. The world database for the process gamma n --> pi- p above 1 GeV has quadrupled with the addition of new differential cross sections from the CEBAF Large Acceptance Spectrometer (CLAS) at Jefferson Lab in Hall B. Differential cross sections from CLAS have been improved with a new final-state interaction determination using a diagramatic technique taking into account the NN and piN final-state interaction amplitudes. Resonance couplings have been extracted and compared to previous determinations. With the addition of these new cross sections, significant changes are seen in the high-energy behavior of the SAID cross sections and amplitudes.
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