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Main Authors: Burkert, Volker, Eichmann, Gernot, Klempt, Eberhard
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.16482
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author Burkert, Volker
Eichmann, Gernot
Klempt, Eberhard
author_facet Burkert, Volker
Eichmann, Gernot
Klempt, Eberhard
contents We review recent progress in our understanding of the nucleon excitation spectrum. Thanks to dedicated efforts at facilities such as ELSA, MAMI and Jefferson Lab, several new nucleon resonances have been discovered, and evidence for previously elusive states has been significantly improved. Numerous decay channels have been observed for the first time, and resonance properties are being extracted from these data by several groups through coupled-channel analyses of varying complexity. Electroproduction experiments have provided further insights into the internal structure of light baryon resonances -- for example, the long-debated Roper resonance $N(1440)$ is observed as a three-quark state with a significant meson-cloud component.While the non-relativistic quark model remains a valuable tool for organizing the spectrum of nucleon and $Δ$ resonances, a variety of theoretical frameworks have emerged to offer deeper understanding, including phenomenological quark models, holographic QCD, functional methods, effective field theories, and lattice QCD. We examine the interplay between these approaches, highlight their respective strengths and explore how they complement each other in shaping our knowledge of light baryon resonances. We address several open questions in baryon spectroscopy, including the nature of the enigmatic $Λ(1405)$, ongoing searches for exotic states such as hybrid baryons and pentaquarks, and the dichotomy between microscopic descriptions of baryons in terms of quarks and gluons versus effective hadronic descriptions based on meson-baryon dynamics.
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The impact of $γN$ and $γ^* N$ interactions on our understanding of nucleon excitations
Burkert, Volker
Eichmann, Gernot
Klempt, Eberhard
High Energy Physics - Phenomenology
We review recent progress in our understanding of the nucleon excitation spectrum. Thanks to dedicated efforts at facilities such as ELSA, MAMI and Jefferson Lab, several new nucleon resonances have been discovered, and evidence for previously elusive states has been significantly improved. Numerous decay channels have been observed for the first time, and resonance properties are being extracted from these data by several groups through coupled-channel analyses of varying complexity. Electroproduction experiments have provided further insights into the internal structure of light baryon resonances -- for example, the long-debated Roper resonance $N(1440)$ is observed as a three-quark state with a significant meson-cloud component.While the non-relativistic quark model remains a valuable tool for organizing the spectrum of nucleon and $Δ$ resonances, a variety of theoretical frameworks have emerged to offer deeper understanding, including phenomenological quark models, holographic QCD, functional methods, effective field theories, and lattice QCD. We examine the interplay between these approaches, highlight their respective strengths and explore how they complement each other in shaping our knowledge of light baryon resonances. We address several open questions in baryon spectroscopy, including the nature of the enigmatic $Λ(1405)$, ongoing searches for exotic states such as hybrid baryons and pentaquarks, and the dichotomy between microscopic descriptions of baryons in terms of quarks and gluons versus effective hadronic descriptions based on meson-baryon dynamics.
title The impact of $γN$ and $γ^* N$ interactions on our understanding of nucleon excitations
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2506.16482