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  • N. Abgrall
  • A. Aduszkiewicz
  • B. Andrieu
  • T. Anticic
  • N. Antoniou
  • J. Argyriades
  • A.G. Asryan
  • B. Baatar
  • A. Blondel
  • J. Blumer
  • M. Bogusz
  • L. Boldizsar
  • A. Bravar
  • W. Brooks
  • J. Brzychczyk
  • A. Bubak
  • S.A. Bunyatov
  • O. Busygina
  • T. Cetner
  • K.-U. Choi
  • P. Christakoglou
  • P. Chung
  • T. Czopowicz
  • N. Davis
  • F. Diakonos
  • S. Di Luise
  • W. Dominik
  • J. Dumarchez
  • R. Engel
  • A. Ereditato
  • L.S. Esposito
  • Z. Fodor
  • A. Ferrero
  • A. Fulop
  • X. Garrido
  • M. Ga dzicki
  • M. Golubeva
  • K. Grebieszkow
  • A. Grzeszczuk
  • F. Guber
  • H. Hakobyan
  • T. Hasegawa
  • S. Igolkin
  • A.S. Ivanov
  • Y. Ivanov
  • A. Ivashkin
  • K. Kadija
  • A. Kapoyannis
  • N. Katry ska
  • D. Kie czewska
  • D. Kikola
  • J.-H. Kim
  • M. Kirejczyk
  • J. Kisiel
  • T. Kobayashi
  • O. Kochebina
  • V.I. Kolesnikov
  • D. Kolev
  • A. Korzenev
  • S. Kowalski
  • S. Kuleshov
  • A. Kurepin
  • R. Lacey
  • J. Lagoda
  • A. Laszlo
  • V.V. Lyubushkin
  • M. MacKowiak
  • Z. Majka
  • A.I. Malakhov
  • A. Marchionni
  • A. Marcinek
  • I. Maris
  • V. Marin
  • T. Matulewicz
  • V. Matveev
  • G.L. Melkumov
  • A. Meregaglia
  • M. Messina
  • S. Mrówczy ski
  • S. Murphy
  • T. Nakadaira
  • P.A. Naumenko
  • K. Nishikawa
  • T. Palczewski
  • G. Palla
  • A.D. Panagiotou
  • W. Peryt
  • O. Petukhov
  • R. P aneta
  • J. Pluta
  • B.A. Popov
  • M. Posiada a
  • S. Pu awski
  • W. Rauch
  • M. Ravonel
  • R. Renfordt
  • A. Robert
  • D. Röhrich
  • E. Rondio
  • B. Rossi
  • M. Roth
  • A. Rubbia
  • M. Rybczy ski
  • A. Sadovsky
  • K. Sakashita
  • T. Sekiguchi
  • P. Seyboth
  • M. Shibata
  • A.N. Sissakian
  • E. Skrzypczak
  • M. S odkowski
  • A.S. Sorin
  • P. Staszel
  • G. Stefanek
  • J. Stepaniak
  • C. Strabel
  • H. Ströbele
  • T. Susa
  • P. Szaflik
  • M. Szuba
  • M. Tada
  • A. Taranenko
  • R. Tsenov
  • R. Ulrich
  • M. Unger
  • M. Vassiliou
  • G. Vesztergombi
  • A. Wilczek
  • Z. W odarczyk
  • A. Wojtaszek
  • J.-G. Yi
  • I.-K. Yoo
  • W. Zipper
Interaction cross sections and charged pion spectra in p+C interactions at 31 GeV/c were measured with the large-acceptance NA61/SHINE spectrometer at the CERN SPS. These data are required to improve predictions of the neutrino flux for the T2K long-baseline neutrino oscillation experiment in Japan. A set of data collected during the first NA61/SHINE run in 2007 with an isotropic graphite target with a thickness of 4% of a nuclear interaction length was used for the analysis. The measured p+C inelastic and production cross sections are 257.2 ± 1.9 ± 8.9 and 229.3 ± 1.9 ± 9.0 mb, respectively. Inclusive production cross sections for negatively and positively charged pions are presented as functions of laboratory momentum in ten intervals of the laboratory polar angle covering the range from 0 up to 420 mrad. The spectra are compared with predictions of several hadron production models.
Original languageEnglish
Pages (from-to)034604_1-26
JournalPhysical Review C - Nuclear Physics
Volume84
Issue number3
DOIs
StatePublished - 2011

ID: 8148986