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Main Author: Wang, Yu-Fei
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.20188
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author Wang, Yu-Fei
author_facet Wang, Yu-Fei
contents In this talk, the electromagnetic transition form factors from the nucleon ground state to twelve $N^*$ and $Δ$ states are exhibited and discussed. Those results are extracted through a comprehensive coupled-channel approach -- the Juelich-Bonn-Washington model, with the center-of-mass energy ranging from $1.13$ GeV to $1.8$ GeV, and the photon virtuality up to $8$ GeV$^2$. The extraction is based on $10^5$ electroproduction data points of $πN$, $ηN$, and $KΛ$ channels, with additionally about $5\times 10^4$ data points in the hadronic sector as well as photoproductions as boundary conditions. The form factors are defined from the residues at the corresponding resonance poles in the multipole amplitudes. Uncertainties are also estimated by the exploration of the parameter space. The qualitative behavior of the transition form factors of $N(1440)$ and $Δ(1232)$ here are in agreement with the previous studies, while for the other states, there has not been literature results that are also defined at the resonance poles.
format Preprint
id arxiv_https___arxiv_org_abs_2601_20188
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Baryon Transition Form Factors from Dynamical Coupled-Channel Analyses
Wang, Yu-Fei
Nuclear Theory
High Energy Physics - Phenomenology
Nuclear Experiment
In this talk, the electromagnetic transition form factors from the nucleon ground state to twelve $N^*$ and $Δ$ states are exhibited and discussed. Those results are extracted through a comprehensive coupled-channel approach -- the Juelich-Bonn-Washington model, with the center-of-mass energy ranging from $1.13$ GeV to $1.8$ GeV, and the photon virtuality up to $8$ GeV$^2$. The extraction is based on $10^5$ electroproduction data points of $πN$, $ηN$, and $KΛ$ channels, with additionally about $5\times 10^4$ data points in the hadronic sector as well as photoproductions as boundary conditions. The form factors are defined from the residues at the corresponding resonance poles in the multipole amplitudes. Uncertainties are also estimated by the exploration of the parameter space. The qualitative behavior of the transition form factors of $N(1440)$ and $Δ(1232)$ here are in agreement with the previous studies, while for the other states, there has not been literature results that are also defined at the resonance poles.
title Baryon Transition Form Factors from Dynamical Coupled-Channel Analyses
topic Nuclear Theory
High Energy Physics - Phenomenology
Nuclear Experiment
url https://arxiv.org/abs/2601.20188