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Using the ZEUS detector at HERA, we have studied the reaction e(+)p --> e(+)X for Q(2) > 5000 GeV2 with a 20.1 pb(-1) data sample collected during the years 1993 to 1996. For Q(2) below 15000 GeV2, the data are in good agreement with Standard Model expectations. For Q(2) > 35000 GeV2. two events are observed while 0.145 +/- 0.013 events are expected, A statistical analysis of a large ensemble of simulated Standard Model experiments indicates that with probability 6.0%, an excess at least as unlikely as that observed would occur above some Q(2) cut. For x > 0.55 and y > 0.75, four events are observed where 0.91 +/- 0.08 events are expected, A statistical analysis of the two-dimensional distribution of the events in x and y yields a probability of 0.72% for the region x > 0.55 and y > 0.25 and a probability of 7.8% for the entire Q(2) > 5000 GeV2 data sample. The observed excess above Standard Model expectations is particularly interesting because it occurs in a previously unexplored kinematic region.

Comparison of ZEUS data with standard model predictions for e(+)p->e(+)X scattering at high x and Q(2)

CIRIO, Roberto;COSTA, Marco;MONACO, Vincenzo;PERONI, Cristiana;SACCHI, Roberto;SOLANO, Ada Maria;
1997-01-01

Abstract

Using the ZEUS detector at HERA, we have studied the reaction e(+)p --> e(+)X for Q(2) > 5000 GeV2 with a 20.1 pb(-1) data sample collected during the years 1993 to 1996. For Q(2) below 15000 GeV2, the data are in good agreement with Standard Model expectations. For Q(2) > 35000 GeV2. two events are observed while 0.145 +/- 0.013 events are expected, A statistical analysis of a large ensemble of simulated Standard Model experiments indicates that with probability 6.0%, an excess at least as unlikely as that observed would occur above some Q(2) cut. For x > 0.55 and y > 0.75, four events are observed where 0.91 +/- 0.08 events are expected, A statistical analysis of the two-dimensional distribution of the events in x and y yields a probability of 0.72% for the region x > 0.55 and y > 0.25 and a probability of 7.8% for the entire Q(2) > 5000 GeV2 data sample. The observed excess above Standard Model expectations is particularly interesting because it occurs in a previously unexplored kinematic region.
1997
74
207
220
http://dx.doi.org/10.1007/s002880050384
ZEUS; DEUTERON STRUCTURE FUNCTIONS; HIGH STATISTICS MEASUREMENT; INELASTIC MUON SCATTERING; CENTRAL TRACKING DETECTOR; ENERGY EP COLLISIONS; PARTON DISTRIBUTIONS; CROSS-SECTIONS; BARREL CALORIMETER; HIGH Q2; PROTON
J. Breitweg;M. Derrick;D. Krakauer;S. Magill;D. Mikunas;B. Musgrave;J. Repond;R. Stanek;R. L. Talaga;R. Yoshida;H. Zhang;M. C. K.;F. Anselmo;P. Antonioli;G. Bari;M. Basile;L. Bellagamba;D. Boscherini;A. Bruni;G. Bruni;G. C. Romeo;G. Castellini;L. Cifarelli;F. Cindolo;A. Contin;M. Corradi;S. DePasquale;I. Gialas;P. Giusti;G. Iacobucci;G. Laurenti;G. Levi;A. Margotti;T. Massam;R. Nania;F. Palmonari;A. Pesci;A. Polini;G. Sartorelli;Y. Z. Garcia;A. Zichichi;C. Amelung;A. Bornheim;I. Brock;K. Coboken;J. Crittenden;R. Deffner;M. Eckert;L. Feld;M. Grothe;H. Hartmann;K. Heinloth;L. Heinz;E. Hilger;H. P. Jakob;U. F. Katz;E. Paul;M. Pfeiffer;C. Rembser;J. Stamm;R. Wedemeyer;D. S. Bailey;S. CampbellRobson;W. N. Cottingham;B. Foster;R. HallWilton;M. E. Hayes;G. P. Heath;H. F. Heath;D. Piccioni;D. G. Roff;R. J. Tapper;M. Arneodo;R. Ayad;M. Capua;A. Garfagnini;L. Iannotti;M. Schioppa;G. Susinno;J. Y. Kim;J. H. Lee;I. T. Lim;M. Y. Pac;A. Caldwell;N. Cartiglia;Z. Jing;W. Liu;J. A. Parsons;S. Ritz;S. Sampson;F. Sciulli;P. B. Straub;Q. Zhu;P. Borzemski;J. Chwastowski;A. Eskreys;Z. Jakubowski;M. B. Przybycien;M. Zachara;L. Zawiejski;L. Adamczyk;B. Bednarek;K. Jelen;D. Kisielewska;T. Kowalski;M. Przybycieo;E. RulikowskaZarebska;L. Suszycki;J. Zajac;Z. Dulinski;A. Kotanski;G. Abbiendi;L. A. T.;U. Behrens;H. Beier;J. K. Bienlein;G. Cases;O. Deppe;K. Desler;G. Drews;D. J. Gilkinson;C. Glasman;P. Gottlicher;J. GrosseKnetter;T. Haas;W. Hain;D. Hasell;H. Hessling;Y. Iga;K. F. Johnson;M. Kasemann;W. Koch;U. Kotz;H. Kowalski;J. Labs;L. Lindemann;B. Lohr;M. Lowe;J. Mainusch;O. Manczak;J. Milewski;T. Monteiro;J. S. T.;D. Notz;K. Ohrenberg;J. H. Park;A. Pellegrino;F. Pelucchi;K. Piotrkowski;M. Roco;M. Rohde;J. Roldan;A. A. Savin;U. Schneekloth;W. Schulz;F. Selonke;B. Surrow;E. Tassi;T. Voss;D. Westphal;G. Wolf;U. Wollmer;C. Youngman;A. F. Zarnecki;W. Zeuner;B. D. Burow;H. J. Grabosch;A. Meyer;S. Schlenstedt;G. Barbagli;E. Gallo;P. Pelfer;G. Maccarrone;L. Votano;A. Bamberger;S. Eisenhardt;P. Markun;T. Trefzger;S. Wolfle;J. T. Bromley;N. H. Brook;P. J. Bussey;A. T. Doyle;D. H. Saxon;L. E. Sinclair;E. Strickland;M. L. Utley;R. Waugh;A. S. Wilson;I. Bohnet;N. Gendner;U. Holm;A. MeyerLarsen;H. Salehi;K. Wick;L. K. Gladilin;R. Klanner;E. Lohrmann;G. Poelz;W. Schott;F. Zetsche;T. C. Bacon;I. Butterworth;J. E. Cole;V. L. Harris;G. Howell;B. H. Y.;L. Lamberti;K. R. Long;D. B. Miller;N. Pavel;A. Prinias;J. K. Sedgbeer;D. Sideris;A. F. Whitfield;U. Mallik;S. M. Wang;J. T. Wu;P. Cloth;D. Filges;S. H. An;S. B. Lee;S. W. Nam;H. S. Park;S. K. Park;F. Barreiro;J. P. Fernandez;R. Graciani;J. M. Hernandez;L. Hervas;L. Labarga;M. Martinez;J. delPeso;J. Puga;J. Terron;J. F. deTroconiz;F. Corriveau;D. S. Hanna;J. Hartmann;L. W. Hung;J. N. Lim;W. N. Murray;A. Ochs;M. Riveline;D. G. Stairs;M. StLaurent;R. Ullmann;T. Tsurugai;V. Bashkirov;B. A. Dolgoshein;A. Stifutkin;G. L. Bashindzhagyan;P. F. Ermolov;Y. A. Golubkov;V. D. Kobrin;L. A. Korzhavina;V. A. Kuzmin;O. Y. Lukina;A. S. Proskuryakov;L. M. Shcheglova;A. N. Solomin;N. P. Zotov;C. Bokel;M. Botje;N. Brummer;F. Chlebana;J. Engelen;M. deKamps;P. Kooijman;A. Kruse;A. vanSighem;H. Tiecke;W. Verkerke;J. Vossebeld;M. Vreeswijk;L. Wiggers;E. deWolf;D. Acosta;B. Bylsma;L. S. Durkin;J. Gilmore;C. H. Ginsburg;C. L. Kim;T. Y. Ling;P. Nylander;T. A. Romanowski;H. E. Blaikley;R. J. Cashmore;A. M. CooperSarkar;R. C. E.;J. K. Edmonds;N. Harnew;M. Lancaster;J. D. McFall;C. Nath;V. A. Noyes;A. Quadt;J. R. Tickner;H. Uijterwaal;R. Walczak;D. S. Waters;T. Yip;A. Bertolin;R. Brugnera;R. Carlin;F. DalCorso;U. Dosselli;S. Limentani;M. Morandin;M. Posocco;L. Stanco;R. Stroili;C. Voci;J. Bulmahn;R. G. Feild;B. Y. Oh;J. R. Okrasinski;J. J. Whitmore;G. Marini;A. Nigro;J. C. Hart;N. A. McCubbin;T. P. Shah;E. Barberis;T. Dubbs;C. Heusch;M. VanHook;W. Lockman;J. T. Rahn;H. F. W.;A. Seiden;D. C. Williams;O. Schwarzer;A. H. Walenta;H. Abramowicz;G. Briskin;S. Dagan;T. Doeker;S. Kananov;A. Levy;T. Abe;J. I. Fleck;M. Inuzuka;T. Ishii;M. Kuze;K. Nagano;M. Nakao;I. Suzuki;K. Tokushuku;K. Umemori;S. Yamada;Y. Yamazaki;R. Hamatsu;T. Hirose;K. Homma;S. Kitamura;T. Matsushita;K. Yamauchi;R. Cirio;M. Costa;M. I. Ferrero;S. Maselli;V. Monaco;C. Peroni;M. C. Petrucci;R. Sacchi;A. Solano;A. Staiano;M. Dardo;D. C. Bailey;M. Brkic;C. P. Fagerstroem;G. F. Hartner;K. K. Joe;G. M. Levman;J. F. Martin;R. S. Orr;S. Polenz;C. R. Sampson;D. Simmons;R. J. Teuscher;J. M. Butterworth;C. D. Catterall;T. W. Jones;P. B. Kaziewicz;J. B. Lane;R. L. Saunders;J. Shulman;M. R. Sutton;B. Lu;L. W. Mo;J. Ciborowski;G. Grzelak;M. Kasprzak;K. Muchorowski;R. J. Nowak;J. M. Pawlak;R. Pawlak;T. Tymieniecka;A. K. Wroblewski;J. A. Zakrzewski;M. Adamus;C. Coldewey;Y. Eisenberg;D. Hochman;U. Karshon;D. Revel;W. F. Badgett;D. Chapin;R. Cross;S. Dasu;C. Foudas;R. J. Loveless;S. Mattingly;D. D. Reeder;W. H. Smith;A. Vaiciulis;M. Wodarczyk;S. Bhadra;W. R. Frisken;M. Khakzad;W. B. Schmidke
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