Measurement of the Nucleon F-2(n)/F-2(p) Structure Function Ratio by the Jefferson Lab MARATHON Tritium/Helium-3 Deep Inelastic Scattering Experiment

MARATHON Collaboration,D. Abrams, H. Albataineh, B. S. Aljawrneh, S. Alsalmi,K. Aniol, W. Armstrong,J. Arrington,H. Atac,T. Averett,C. Ayerbe Gayoso, X. Bai,J. Bane, S. Barcus,A. Beck, V. Bellini,H. Bhatt, D. Bhetuwal,D. Biswas, D. Blyth,W. Boeglin, D. Bulumulla, J. Butler, A. Camsonne,M. Carmignotto,J. Castellanos,J. -P. Chen,E. O. Cohen, S. Covrig, K. Craycraft,R. Cruz-Torres, B. Dongwi,B. Duran,D. Dutta,E. Fuchey,C. Gal, T. N. Gautam,S. Gilad, K. Gnanvo,T. Gogami,J. Gomez, C. Gu, A. Habarakada,T. Hague, J. -O. Hansen,M. Hattawy, F. Hauenstein, D. W. Higinbotham,R. J. Holt, E. W. Hughes,C. Hyde,H. Ibrahim,S. Jian,S. Joosten,A. Karki,B. Karki, A. T. Katramatou,C. Keith,C. Keppel,M. Khachatryan,V. Khachatryan,A. Khanal, A. Kievsky,D. King,P. M. King, I. Korover,S. A. Kulagin,K. S. Kumar, T. Kutz,N. Lashley-Colthirst,S. Li,W. Li,H. Liu, S. Liuti,N. Liyanage,P. Markowitz, R. E. McClellan, D. Meekins,S. Mey-Tal Beck,Z. -E. Meziani, R. Michaels, M. Mihovilovic,V. Nelyubin,D. Nguyen,Nuruzzaman,M. Nycz, R. Obrecht,M. Olson, V. F. Owen, E. Pace,B. Pandey,V. Pandey,M. Paolone,A. Papadopoulou,S. Park,S. Paul, G. G. Petratos, R. Petti,E. Piasetzky,R. Pomatsalyuk, S. Premathilake,A. J. R. Puckett, V. Punjabi, R. D. Ransome,M. N. H. Rashad, P. E. Reimer,S. Riordan,J. Roche,G. Salme, N. Santiesteban,B. Sawatzky, S. Scopetta,A. Schmidt,B. Schmookler, J. Segal,E. P. Segarra, A. Shahinyan, S. Sirca, N. Sparveris,T. Su,R. Suleiman, H. Szumila-Vance,A. S. Tadepalli,L. Tang,W. Tireman, F. Tortorici,G. M. Urciuoli,B. Wojtsekhowski,S. Wood,Z. H. Ye,Z. Y. Ye,J. Zhang

PHYSICAL REVIEW LETTERS（2022）

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摘要

The ratio of the nucleon F-2 structure functions, F-2(n)/F-2(p), is determined by the MARATHON experiment from measurements of deep inelastic scattering of electrons from H-3 and He-3 nuclei. The experiment was performed in the Hall A Facility of Jefferson Lab using two high-resolution spectrometers for electron detection, and a cryogenic target system which included a low-activity tritium cell. The data analysis used a novel technique exploiting the mirror symmetry of the two nuclei, which essentially eliminates many theoretical uncertainties in the extraction of the ratio. The results, which cover the Bjorken scaling variable range 0.19 < x < 0.83, represent a significant improvement compared to previous SLAC and Jefferson Lab measurements for the ratio. They are compared to recent theoretical calculations and empirical determinations of the F-2(n)/F-2(p) ratio.

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