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| Main Authors: | , , , |
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| Format: | Preprint |
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2025
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| Online Access: | https://arxiv.org/abs/2502.16185 |
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| _version_ | 1866913703229652992 |
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| author | Paterez, Gerome A. Jusoy, Jade C. Pantohan, Edmar Auxtero Jr, Eulogio |
| author_facet | Paterez, Gerome A. Jusoy, Jade C. Pantohan, Edmar Auxtero Jr, Eulogio |
| contents | The study of protons, fundamental constituents of atomic nuclei, is crucial for understanding nuclear physics and fundamental forces. This review examines advancements in extracting electromagnetic form factors, essential for probing proton structure. Electron-proton scattering experiments, particularly at Jefferson Lab (JLab) and Mainz Microtron (MAMI), have played a key role [arXiv:2009.10510, arXiv:1912.03881].
Various methodologies, such as Rosenbluth separation and polarization transfer, are discussed, highlighting their evolution and challenges, including systematic uncertainties and theoretical ambiguities [arXiv:1706.00696]. Literature indicates the Rosenbluth method yields a proton radius of approximately 0.8 fm, consistent with early measurements but differing from recent polarization transfer results, which suggest a smaller radius [arXiv:1912.03881].
The polarization transfer technique has become a preferred approach, offering precise measurements of the electric-to-magnetic form factor ratio, especially at high momentum transfer [arXiv:1706.00696, arXiv:1912.03881]. Alternative methods, such as cross-section ratios, extend form factor studies but still face residual uncertainties [arXiv:2009.10510].
While significant progress has been made, discrepancies persist, particularly in proton radius extraction. Future research must address systematic uncertainties to refine our understanding of proton electromagnetic properties and advance particle physics [arXiv:1912.03881, arXiv:1706.00696]. |
| format | Preprint |
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arxiv_https___arxiv_org_abs_2502_16185 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Electromagnetic Form Factors and the Proton Radius Puzzle: A Critical Review of Extraction Methods via Electron-Proton Scattering Paterez, Gerome A. Jusoy, Jade C. Pantohan, Edmar Auxtero Jr, Eulogio Nuclear Experiment Nuclear Theory The study of protons, fundamental constituents of atomic nuclei, is crucial for understanding nuclear physics and fundamental forces. This review examines advancements in extracting electromagnetic form factors, essential for probing proton structure. Electron-proton scattering experiments, particularly at Jefferson Lab (JLab) and Mainz Microtron (MAMI), have played a key role [arXiv:2009.10510, arXiv:1912.03881]. Various methodologies, such as Rosenbluth separation and polarization transfer, are discussed, highlighting their evolution and challenges, including systematic uncertainties and theoretical ambiguities [arXiv:1706.00696]. Literature indicates the Rosenbluth method yields a proton radius of approximately 0.8 fm, consistent with early measurements but differing from recent polarization transfer results, which suggest a smaller radius [arXiv:1912.03881]. The polarization transfer technique has become a preferred approach, offering precise measurements of the electric-to-magnetic form factor ratio, especially at high momentum transfer [arXiv:1706.00696, arXiv:1912.03881]. Alternative methods, such as cross-section ratios, extend form factor studies but still face residual uncertainties [arXiv:2009.10510]. While significant progress has been made, discrepancies persist, particularly in proton radius extraction. Future research must address systematic uncertainties to refine our understanding of proton electromagnetic properties and advance particle physics [arXiv:1912.03881, arXiv:1706.00696]. |
| title | Electromagnetic Form Factors and the Proton Radius Puzzle: A Critical Review of Extraction Methods via Electron-Proton Scattering |
| topic | Nuclear Experiment Nuclear Theory |
| url | https://arxiv.org/abs/2502.16185 |