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Multiple Jet Production at Low Transverse Energies in $p\bar p$ Collisions at $\sqrt s$ = 1.8 TeV

V.M. Abazov B. Abbott Abdelmalek Abdesselam M. Abolins V. Abramov B.S. Acharya D.L. Adams M. Adams S.N. Ahmed G.D. Alexeev A. Alton G.A. Alves E.W. Anderson Y. Arnoud 1 C. Avila V.V. Babintsev L. Babukhadia T.C. Bacon A. Baden B. Baldin P.W. Balm S. Banerjee E. Barberis P. Baringer J. Barreto J.F. Bartlett U. Bassler 2 D. Bauer A. Bean F. Beaudette 3 M. Begel A. Belyaev S.B. Beri G. Bernardi 2 I. Bertram A. Besson 1 R. Beuselinck V.A. Bezzubov P.C. Bhat V. Bhatnagar M. Bhattacharjee G. Blazey F. Blekman S. Blessing A. Boehnlein N.I. Bojko T.A. Bolton F. Borcherding K. Bos T. Bose A. Brandt R. Breedon G. Briskin R. Brock G. Brooijmans A. Bross D. Buchholz M. Buehler V. Buescher V.S. Burtovoi J.M. Butler F. Canelli W. Carvalho D. Casey Z. Casilum H. Castilla-Valdez D. Chakraborty K.M. Chan S.V. Chekulaev D.K. Cho S. Choi S. Chopra J.H. Christenson D. Claes A.R. Clark L. Coney B. Connolly W.E. Cooper D. Coppage S. Crepe-Renaudin 1 M.A.C. Cummings D. Cutts G.A. Davis K. De S.J. de Jong M. Demarteau R. Demina P. Demine 1 D. Denisov S.P. Denisov S. Desai H.T. Diehl M. Diesburg S. Doulas Y. Ducros L.V. Dudko S. Duensing L. Duflot 3 S.R. Dugad A. Duperrin 4 A. Dyshkant D. Edmunds J. Ellison J.T. Eltzroth V.D. Elvira R. Engelmann S. Eno G. Eppley P. Ermolov O.V. Eroshin J. Estrada H. Evans V.N. Evdokimov D. Fein T. Ferbel F. Filthaut H.E. Fisk Y. Fisyak E. Flattum F. Fleuret M. Fortner H. Fox S. Fu S. Fuess E. Gallas A.N. Galyaev M. Gao V. Gavrilov R.J. Genik K. Genser C.E. Gerber Y. Gershtein R. Gilmartin G. Ginther B. Gomez P.I. Goncharov H. Gordon L.T. Goss K. Gounder A. Goussiou N. Graf P.D. Grannis J.A. Green H. Greenlee Z.D. Greenwood S. Grinstein L. Groer S. Grunendahl Anupam Gupta S.N. Gurzhev G. Gutierrez P. Gutierrez N.J. Hadley H. Haggerty S. Hagopian V. Hagopian R.E. Hall Scott Hansen J.M. Hauptman C. Hays Christian Hebert D. Hedin J.M. Heinmiller A.P. Heinson U. Heintz M.D. Hildreth R. Hirosky J.D. Hobbs B. Hoeneisen Yue Huang I. Iashvili R. Illingworth A.S. Ito M. Jaffre 3 S. Jain R. Jesik K. Johns M. Johnson A. Jonckheere H. Jostlein A. Juste W. Kahl S. Kahn E. Kajfasz 4 A.M. Kalinin D. Karmanov D. Karmgard R. Kehoe A. Khanov A. Kharchilava S.K. Kim B. Klima B. Knuteson W. Ko J.M. Kohli A.V. Kostritskiy J. Kotcher B. Kothari A.V. Kozelov E.A. Kozlovsky J. Krane M.R. Krishnaswamy P. Krivkova S. Krzywdzinski M. Kubantsev S. Kuleshov Y. Kulik S. Kunori A. Kupco V.E. Kuznetsov G. Landsberg W.M. Lee A. Leflat C. Leggett F. Lehner C. Leonidopoulos J. Li Q.Z. Li D. Lincoln S.L. Linn J. Linnemann R. Lipton A. Lucotte 1 L. Lueking C. Lundstedt C. Luo A.K.A. Maciel R.J. Madaras V.L. Malyshev V. Manankov H.S. Mao T. Marshall M.I. Martin A.A. Mayorov R. Mccarthy T. Mcmahon H.L. Melanson M. Merkin K.W. Merritt C. Miao H. Miettinen D. Mihalcea C.S. Mishra N. Mokhov N.K. Mondal H.E. Montgomery R.W. Moore M. Mostafa H. da Motta Y.D. Mutaf E. Nagy 4 F. Nang M. Narain V.S. Narasimham N.A. Naumann H.A. Neal J.P. Negret A. Nomerotski T. Nunnemann G.Z. Obrant D. O'Neil V. Oguri B. Olivier 2 N. Oshima P. Padley K. Papageorgiou N. Parashar R. Partridge N. Parua A. Patwa O. Peters P. Petroff 3 R. Piegaia B.G. Pope E. Popkov H.B. Prosper S. Protopopescu M.B. Przybycien J. Qian R. Raja S. Rajagopalan P.A. Rapidis N.W. Reay S. Reucroft M. Ridel M. Rijssenbeek F. Rizatdinova T. Rockwell M. Roco C. Royon P. Rubinov R. Ruchti J. Rutherfoord B.M. Sabirov G. Sajot 1 A. Santoro L. Sawyer R.D. Schamberger H. Schellman A. Schwartzman E. Shabalina R.K. Shivpuri D. Shpakov M. Shupe R.A. Sidwell V. Simak H. Singh V. Sirotenko P. Slattery R.P. Smith R. Snihur G.R. Snow J. Snow S. Snyder J. Solomon Y. Song V. Sorn M. Sosebee N. Sotnikova K. Soustruznik M. Souza N.R. Stanton G. Steinbruck R.W. Stephens D. Stoker V. Stolin A. Stone D.A. Stoyanova M.A. Strang M. Strauss M. Strovink L. Stutte A. Sznajder M. Talby 4 W. Taylor S. Tentindo-Repond S.M. Tripathi T.G. Trippe A.S. Turcot P.M. Tuts V. Vanev R. van Kooten N. Varelas L.S. Vertogradov F. Villeneuve-Seguier 4 A.A. Volkov A.P. Vorobev H.D. Wahl H. Wang Z.M. Wang J. Warchol G. Watts M. Wayne H. Weerts A. White J.T. White D. Whiteson D.A. Wijngaarden S. Willis S.J. Wimpenny J. Womersley D.R. Wood Q. Xu R. Yamada P. Yamin T. Yasuda Y.A. Yatsunenko K. Yip S. Youssef J. Yu M. Zanabria X. Zhang H. Zheng B. Zhou Z. Zhou M. Zielinski D. Zieminska A. Zieminski V. Zutshi E.G. Zverev A. Zylberstejn
Abstract : We present data on multiple production of jets with transverse energies near 20 GeV in p-pbar collisions at Root(s) = 1.8 TeV. QCD calculations in the parton-shower approximation of PYTHIA and HERWIG and the next-to-leading order approximation of JETRAD are compared to the data for one, two, three, and four jet inclusive production. Transverse energy spectra and multiple jet angular and summed transverse-energy distributions are adequately described by the shower approximation while next-to-leading order calculations describe the data poorly.
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Submitted on : Friday, March 14, 2003 - 5:22:53 PM
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V.M. Abazov, B. Abbott, Abdelmalek Abdesselam, M. Abolins, V. Abramov, et al.. Multiple Jet Production at Low Transverse Energies in $p\bar p$ Collisions at $\sqrt s$ = 1.8 TeV. Physical Review D, American Physical Society, 2003, 67, 052001-(9 p.). ⟨in2p3-00012298⟩

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