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Title Insight into Emergence of Hadron Mass from $\boldmath N^*$ Electroexcitation Amplitudes
Authors Victor Mokeev, Daniel Carman
JLAB number JLAB-PHY-23-3933
LANL number (None)
Other number DOE/OR/23177-7207
Document Type(s) (Journal Article) 
Associated with EIC: No
Supported by Jefferson Lab LDRD Funding: No
Funding Source: Nuclear Physics (NP)

Compiled for Nuovo Cim. C
Publication Abstract: The emergence of hadron mass represents one of the most challenging and still open problems in contemporary hadron physics. The results on the nucleon resonance electroexcitation amplitudes available from the CLAS data on $\pi N$ and $\pi^+\pi^-p$ electroproduction analyzed within the continuum Schwinger method open up a new avenue for gaining insight into the strong interaction dynamics that are responsible for the generation of the dominant part of hadron mass. Future prospects of these studies in experiments of the 12-GeV era with CLAS12 and after a potential increase of the CEBAF energy up to 22 GeV will offer a unique opportunity to explore the full range of distances where the dominant part of hadron mass and $N^*$ structure emerge from QCD.
Experiment Numbers: other
Group: Hall B
Document: pdf
Accepted Manuscript:
Supporting Documents:
Supporting Datasets: