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Deep inelastic inclusive and diffractive scattering at Q2 values from 25 to 320 GeV2 with the ZEUS forward plug calorimeter

S. Chekanov,M. Derrick,S. Magill,B. Musgrave,D. Nicholass,J. Repond,R. Yoshida,M.C.K. Mattingly,M. Jechow,N. Pavel,P. Antonioli,G. Bari,L. Bellagamba, D. Boscherini,A. Bruni,G. Bruni,F. Cindolo,M. Corradi,G. Iacobucci, A. Margotti,R. Nania,A. Polini,S. Antonelli,M. Basile,M. Bindi, L. Cifarelli, A. Contin,S. De Pasquale,G. Sartorelli, A. Zichichi,D. Bartsch, I. Brock,H. Hartmann,E. Hilger,H.-P. Jakob, M. Jüngst,A.E. Nuncio-Quiroz,E. Paul,R. Renner,U. Samson,V. Schönberg,R. Shehzadi,M. Wlasenko,N.H. Brook,G.P. Heath,J.D. Morris,M. Capua,S. Fazio,A. Mastroberardino,M. Schioppa,G. Susinno,E. Tassi,J.Y. Kim,Z.A. Ibrahim,B. Kamaluddin,W.A.T. Wan Abdullah,Y. Ning,Z. Ren,F. Sciulli,J. Chwastowski,A. Eskreys,J. Figiel,A. Galas,M. Gil,K. Olkiewicz,P. Stopa,L. Zawiejski,L. Adamczyk,T. Bołd,I. Grabowska-Bołd, D. Kisielewska,J. Łukasik,M. Przybycień,L. Suszycki,A. Kotański,W. Słomiński, U. Behrens,C. Blohm,A. Bonato,K. Borras,R. Ciesielski,N. Coppola,V. Drugakov,S. Fang,J. Fourletova,A. Geiser,P. Göttlicher,J. Grebenyuk,I. Gregor,T. Haas,W. Hain,A. Hüttmann,B. Kahle,M. Kasemann,I.I. Katkov,U. Klein,U. Kötz,H. Kowalski,H. Lim,E. Lobodzinska,B. Löhr, R. Mankel,I.-A. Melzer-Pellmann,S. Miglioranzi,A. Montanari,T. Namsoo,D. Notz,A. Parenti,L. Rinaldi,P. Roloff,I. Rubinsky,R. Santamarta,U. Schneekloth, A. Spiridonov,D. Szuba,J. Szuba,T. Theedt,G. Wolf,K. Wrona,A.G. Yagües Molina,C. Youngman,W. Zeuner,W. Lohmann,S. Schlenstedt, G. Barbagli, E. Gallo,P.G. Pelfer,A. Bamberger, D. Dobur,F. Karstens,N.N. Vlasov,P.J. Bussey,A.T. Doyle,W. Dunne,M. Forrest,M. Rosin,D.H. Saxon,I.O. Skillicorn,I. Gialas,K. Papageorgiu,U. Holm,R. Klanner,E. Lohrmann, P. Schleper,T. Schörner-Sadenius,J. Sztuk, H. Stadie,M. Turcato, C. Foudas,C. Fry,K.R. Long,A.D. Tapper,T. Matsumoto,K. Nagano,K. Tokushuku, S. Yamada,Y. Yamazaki,A.N. Barakbaev,E.G. Boos,N.S. Pokrovskiy,B.O. Zhautykov,V. Aushev,M. Borodin,A. Kozulia,M. Lisovyi,D. Son,J. de Favereau,K. Piotrzkowski,F. Barreiro,C. Glasman,M. Jimenez,L. Labarga,J. del Peso,E. Ron,M. Soares,J. Terrón,M. Zambrana,F. Corriveau,C. Liu,J. Schwartz,R. Walsh,C. Zhou,T. Tsurugai,A. Antonov,B.A. Dolgoshein,D. Gladkov,V. Sosnovtsev,A. Stifutkin,S. Suchkov,R.K. Dementiev,P.F. Ermolov, L.K. Gladilin,Yu.A. Golubkov,L.A. Khein,I.A. Korzhavina,V.A. Kuzmin,B.B. Levchenko,O.Yu. Lukina,A.S. Proskuryakov,L.M. Shcheglova,D.S. Zotkin,I. Abt,C. Büttner,A. Caldwell,D. Kollar,B. Reisert,W.B. Schmidke,J. Sutiak,G. Grigorescu,A. Keramidas, E. Koffeman,P. Kooijman,A. Pellegrino,H. Tiecke,M. Vázquez,L. Wiggers,N. Brümmer, B. Bylsma,L.S. Durkin,A. Lee,T.Y. Ling,P.D. Allfrey,M.A. Bell,A.M. Cooper-Sarkar,R.C.E. Devenish,J. Ferrando,B. Foster,K. Korcsak-Gorzo,K. Oliver,S. Patel,V. Roberfroid,A. Robertson,P.B. Straub,C. Uribe-Estrada,R. Walczak,A. Bertolin,F. Dal Corso, S. Dusini,A. Longhin,L. Stanco, P. Bellan,R. Brugnera,R. Carlin,A. Garfagnini,S. Limentani,B.Y. Oh,A. Raval,J. Ukleja,J.J. Whitmore,Y. Iga,G. D'Agostini,G. Marini,A. Nigro,J.E. Cole,J.C. Hart,A. Gabareen,R. Ingbir,S. Kananov,O. Smith,A. Stern, M. Kuze,J. Maeda,R. Hori,S. Kagawa,N. Okazaki, S. Shimizu,T. Tawara,R. Hamatsu,H. Kaji,S. Kitamura,O. Ota,Y.D. Ri,M. Costa,M.I. Ferrero,V. Monaco, R. Sacchi, A. Solano,M. Arneodo, M. Ruspa,S. Fourletov,J.F. Martin,T.P. Stewart,S.K. Boutle,J.M. Butterworth,C. Gwenlan,T.W. Jones,J.H. Loizides,M. Wing,B. Brzozowska,J. Ciborowski,G. Grzelak,P. Kulinski,P. Łużniak,J. Malka,R.J. Nowak,J.M. Pawlak,T. Tymieniecka,A. Ukleja,A.F. Żarnecki,M. Adamus,P. Plucinski,Y. Eisenberg,D. Hochman,U. Karshon, E. Brownson,T. Danielson,A. Everett,D. Kçira,D.D. Reeder,P. Ryan,A.A. Savin,W.H. Smith,H. Wolfe,S. Bhadra,C.D. Catterall,Y. Cui,G. Hartner,S. Menary,U. Noor,J. Standage,J. Whyte

Nuclear Physics B(2008)

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摘要
Deep inelastic scattering and its diffractive component, ep→e′γ∗p→e′XN, have been studied at HERA with the ZEUS detector using an integrated luminosity of 52.4 pb−1. The MX method has been used to extract the diffractive contribution. A wide range in the centre-of-mass energy W (37–245 GeV), photon virtuality Q2 (20–450 GeV2) and mass MX (0.28–35 GeV) is covered. The diffractive cross section for 2更多
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关键词
structure function,x ray photoelectron spectroscopy,deep inelastic scattering,elementary particles,center of mass,cross section
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