Global Data-Driven Determination of Baryon Transition Form Factors

Hadronic resonances emerge from strong interactions encoding the dynamics of quarks and gluons. The structure of these resonances can be probed by virtual photons parameterized in transition form factors. In this study, twelve \(N^*\) and \(\Delta\) transition form factors at the pole are extracted...

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Bibliographic Details
Published in:arXiv.org 2024-09
Main Authors: Yu-Fei, Wang, Döring, Michael, Jackson Hergenrather, Mai, Maxim, Mart, Terry, Ulf-G Meißner, Rönchen, Deborah, Workman, Ronald, Jülich-Bonn-Washington Collaboration
Format: Article
Language:English
Subjects:
Boundary conditions
Form factors
Photons
Photoproduction
Qualitative analysis
Online Access:Get full text
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Summary:Hadronic resonances emerge from strong interactions encoding the dynamics of quarks and gluons. The structure of these resonances can be probed by virtual photons parameterized in transition form factors. In this study, twelve \(N^*\) and \(\Delta\) transition form factors at the pole are extracted from data with the center-of-mass energy from \(\pi N\) threshold to \(1.8\,{\rm GeV}\), and the photon virtuality \(0\leq Q^2/{\rm GeV}^2\leq 8\). For the first time, these results are determined from a simultaneous analysis of more than one state, i.e., \(\sim 10^5\) \(\pi N\), \(\eta N\), and \(K\Lambda\) electroproduction data. In addition, about \( 5\cdot 10^4\) data in the hadronic sector as well as photoproduction serve as boundary conditions. For the \(\Delta(1232)\) and \(N(1440)\) states our results are in qualitative agreement with previous studies, while the transition form factors at the poles of some higher excited states are estimated for the first time. Realistic uncertainties are determined by further exploring the parameter space.
ISSN:2331-8422
DOI:10.48550/arxiv.2404.17444