T2K neutrino flux prediction

Kou Abe,N Abgrall,H Aihara,T Akiri,JB Albert,C Andreopoulos,S Aoki,A Ariga,Tomoko Ariga,S Assylbekov,D Autiero,M Barbi,GJ Barker,G Barr,M Bass,M Batkiewicz,F Bay,SW Bentham,V Berardi,BE Berger,S Berkman,I Bertram,D Beznosko,S Bhadra,F d M Blaszczyk,A Blondel,C Bojechko,S Boyd,A Bravar,C Bronner,DG Brook-Roberge,N Buchanan,RG Calland,J Caravaca Rodriguez,SL Cartwright,R Castillo,M-G Catanesi,A Cervera,D Cherdack,G Christodoulou,A Clifton,J Coleman,SJ Coleman,G Collazuol,K Connolly,A Curioni,A Dabrowska,I Danko,R Das,S Davis,M Day,JPAM De Andre,P De Perio,G De Rosa,T Dealtry,C Densham,F Di Lodovico,S Di Luise,J Dobson,T Duboyski,F Dufour,J Dumarchez,S Dytman,M Dziewiecki,M Dziomba,S Emery,A Ereditato,L Escudero,LS Esposito,AJ Finch,E Frank,M Friend,Y Fujii,Y Fukuda,V Galymov,A Gaudin,S Giffin,C Giganti,K Gilje,T Golan,JJ Gomez-Cadenas,M Gonin,N Grant,D Gudin,P Guzowski,DR Hadley,A Haesler,MD Haigh,D Hansen,T Hara,M Hartz,T Hasegawa,NC Hastings,Y Hayato,C Hearty,RL Helmer,J Hignight,A Hillairet,A Himmel,T Hiraki,J Holeczek,S Horikawa,K Huang,A Hyndman,AK Ichikawa,K Ieki,M Ieva,M Ikeda,J Imber,J Insler,T Ishida,T Ishii,SJ Ives,K Iyogi,A Izmaylov,B Jamieson,RA Johnson,JH Jo,P Jonsson,KK Joo, GV Jover-Manas,CK Jung,H Kaji,T Kajita,H Kakuno,J Kameda,Y Kanazawa,D Karlen,I Karpikov,E Kearns,M Khabibullin,F Khanam,A Khotjantsev,D Kielczewska,T Kikawa,A Kilinski,JY Kim,J Kim,SB Kim,B Kirby,J Kisiel,P Kitching,T Kobayashi,G Kogan,A Konaka, LL Kormos,A Korzenev,K Koseki,Yusuke Koshio,K Kowalik

Physical Review D（2013）

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摘要

The Tokai-to-Kamioka (T2K) experiment studies neutrino oscillations using an off-axis muon neutrino beam with a peak energy of about 0.6 GeV that originates at the Japan Proton Accelerator Research Complex accelerator facility. Interactions of the neutrinos are observed at near detectors placed at 280 m from the production target and at the far detector—Super-Kamiokande—located 295 km away. The flux prediction is an essential part of the successful prediction of neutrino interaction rates at the T2K detectors and is an important input to T2K neutrino oscillation and cross section measurements. A FLUKA and GEANT3-based simulation models the physical processes involved in the neutrino production, from the interaction of primary beam protons in the T2K target, to the decay of hadrons and muons that produce neutrinos. The simulation uses proton beam monitor measurements as inputs. The modeling of …

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