Measurements Of (Nu)Over-Bar(Mu) And (Nu)Over-Bar(Mu) + Nu(Mu) Charged-Current Cross-Sections Without Detected Pions Or Protons On Water And Hydrocarbon At A Mean Anti-Neutrino Energy Of 0.86 Gev

K. Abe,N. Akhlaq, R. Akutsu,A. Ali,C. Alt, C. Andreopoulos, L. Anthony, M. Antonova,S. Aoki,A. Ariga,T. Arihara,Y. Asada,Y. Ashida,E. T. Atkin,Y. Awataguchi,S. Ban,M. Barbi, G. J. Barker, G. Barr,D. Barrow,C. Barry,M. Batkiewicz-Kwasniak,A. Beloshapkin,F. Bench,V Berardi,S. Berkman,L. Berns,S. Bhadra,S. Bienstock,A. Blanchet, A. Blondel,S. Bolognesi,T. Bonus,B. Bourguille,S. B. Boyd,D. Brailsford,A. Bravar,D. Bravo Berguno,C. Bronner,S. Bron,A. Bubak,M. Buizza Avanzini,J. Calcutt,T. Campbell,S. Cao,S. L. Cartwright,M. G. Catanesi,A. Cervera,A. Chappell,C. Checchia, D. Cherdack,N. Chikuma, G. Christodoulou,M. Cicerchia, J. Coleman,G. Collazuol,L. Cook,D. Coplowe,A. Cudd,A. Dabrowska,G. De Rosa,T. Dealtry,P. F. Denner,S. R. Dennis,C. Densham,A. Dergacheva,F. Di Lodovico,N. Dokania,S. Dolan,T. A. Doyle, O. Drapier,J. Dumarchez,P. Dunne,A. Eguchi,L. Eklund,S. Emery-Schrenk,A. Ereditato,P. Fernandez,T. Feusels,A. J. Finch,G. A. Fiorentini,G. Fiorillo, C. Francois,M. Friend, Y. Fujii,R. Fujita, D. Fukuda,R. Fukuda,Y. Fukuda,K. Fusshoeller, K. Gameil,C. Giganti,T. Golan, M. Gonin,A. Gorin,M. Guigue,D. R. Hadley,J. T. Haigh,P. Hamacher-Baumann,D. A. Harris,M. Hartz,T. Hasegawa, S. Hassani,N. C. Hastings,T. Hayashino,Y. Hayato,A. Hiramoto,M. Hogan, J. Holeczek,N. T. Hong Van,T. Honjo,F. Iacob,A. K. Ichikawa,M. Ikeda,T. Ishida,T. Ishii, M. Ishitsuka,K. Iwamoto,A. Izmaylov,N. Izumi,M. Jakkapu, B. Jamieson,S. J. Jenkins,C. Jesus-Valls,M. Jiang,S. Johnson,P. Jonsson, C. K. Jung,P. B. Jurj,M. Kabirnezhad,A. C. Kaboth, T. Kajita, H. Kakuno, J. Kameda, D. Karlen,S. P. Kasetti,Y. Kataoka,Y. Katayama,T. Katori, Y. Kato,E. Kearns,M. Khabibullin,A. Khotjantsev,T. Kikawa,H. Kikutani,H. Kim,J. Kim,S. King,J. Kisiel,A. Knight,A. Knox,T. Kobata,T. Kobayashi,L. Koch,T. Koga,A. Konaka,L. L. Kormos,Y. Koshio,A. Kostin,K. Kowalik,H. Kubo,Y. Kudenko,N. Kukita,S. Kuribayashi,R. Kurjata,T. Kutter, M. Kuze, L. Labarga, J. Lagoda,M. Lamoureux,D. Last,M. Laveder,M. Lawe,M. Licciardi, T. Lindner,R. P. Litchfield,S. L. Liu,X. Li,A. Longhin,L. Ludovici, X. Lu,T. Lux,L. N. Machado,L. Magaletti,K. Mahn,M. Malek,S. Manly,L. Maret,A. D. Marino,L. Martimagro,J. F. Martin,T. Maruyama,T. Matsubara,K. Matsushita,V Matveev,C. Mauger, K. Mavrokoridis,E. Mazzucato,M. Mccarthy, N. Mccauley,J. Mcelwee, K. S. Mcfarland, C. Mcgrew,A. Mefodiev,C. Metelko,M. Mezzetto,A. Minamino, O. Mineev,S. Mine,M. Miura,L. Molina Bueno,S. Moriyama,J. Morrison,Th A. Mueller,L. Munteanu,S. Murphy,Y. Nagai,T. Nakadaira,M. Nakahata,Y. Nakajima,A. Nakamura, K. G. Nakamura, K. Nakamura,Y. Nakano,S. Nakayama, T. Nakaya,K. Nakayoshi,C. Nantais,C. E. R. Naseby,T. Ngoc,V. Q. Nguyen,K. Niewczas,K. Nishikawa,Y. Nishimura, E. Noah,T. S. Nonnenmacher,F. Nova,P. Novella,J. Nowak,J. C. Nugent,H. M. O'Keeffe,L. O'Sullivan,T. Odagawa,T. Ogawa,R. Okada, K. Okumura, T. Okusawa,S. M. Oser,R. A. Owen,Y. Oyama,V Palladino,J. L. Palomino, V Paolone,M. Pari,W. C. Parker,S. Parsa,J. Pasternak,P. Paudyal,M. Pavin,D. Payne,G. C. Penn, L. Pickering,C. Pidcott,G. Pintaudi,E. S. Pinzon Guerra,C. Pistillo,B. Popov,K. Porwit,M. Posiadala-Zezula,A. Pritchard,B. Quilain, T. Radermacher,E. Radicioni,B. Radics,P. N. Ratoff,E. Reinherz-Aronis,C. Riccio,E. Rondio,S. Roth,A. Rubbia,A. C. Ruggeri, C. Ruggles,A. Rychter,K. Sakashita,F. Sanchez,G. Santucci,C. M. Schloesser,K. Scholberg,J. Schwehr,M. Scott,Y. Seiya,T. Sekiguchi,H. Sekiya,D. Sgalaberna,R. Shah,A. Shaikhiev,F. Shaker,A. Shaykina,M. Shiozawa,W. Shorrock,A. Shvartsman,K. Skwarczynski,A. Smirnov,M. Smy,J. T. Sobczyk,H. Sobel,F. J. P. Soler,Y. Sonoda,R. Spina,J. Steinmann, S. Suvorov,A. Suzuki,S. Y. Suzuki,Y. Suzuki,A. A. Sztuc,M. Tada, M. Tajima,A. Takeda,Y. Takeuchi,H. K. Tanaka,H. A. Tanaka,S. Tanaka,Y. Tanihara,M. Tani,N. Teshima,L. F. Thompson,W. Toki,C. Touramanis,T. Towstego,K. M. Tsui,T. Tsukamoto, M. Tzanov,Y. Uchida,W. Uno,M. Vagins,S. Valder,Z. Vallari,D. Vargas,G. Vasseur, C. Vilela,W. G. S. Vinning,T. Vladisavljevic,V. V. Volkov,T. Wachala,J. Walker,J. G. Walsh,Y. Wang,D. Wark,M. O. Wascko,A. Weber,R. Wendell,M. J. Wilking,C. Wilkinson,J. R. Wilson,R. J. Wilson,K. Wood,C. Wret, J. Xia,Y. Yamada,K. Yamamoto,C. Yanagisawa,G. Yang,T. Yano,K. Yasutome,S. Yen, N. Yershov,M. Yokoyama,T. Yoshida,Y. Yoshimoto,M. Yu,A. Zalewska,J. Zalipska,K. Zaremba,G. Zarnecki,M. Ziembicki,E. D. Zimmerman,M. Zito,S. Zsoldos, A. Zykova

PROGRESS OF THEORETICAL AND EXPERIMENTAL PHYSICS（2021）

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摘要

We report measurements of the flux-integrated (nu) over bar (mu) and (nu) over bar (mu) + nu(mu) charged-current cross -sections on water and hydrocarbon targets using the T2K anti-neutrino beam with a mean beam energy of 0.86 GeV. The signal is defined as the (anti -)neutrino charged-current interaction with one induced mu(+/-) and no detected charged pion or proton. These measurements are performed using a new WAGASCI module recently added to the T2K setup in combination with the INGRID Proton Module. The phase space of muons is restricted to the high-detection efficiency region, p(mu) > 400 MeV/c and theta(mu) < 30 degrees, in the laboratory frame. An absence of pions and protons in the detectable phase spaces of p(pi) > 200 MeV/c, theta(pi) < 70 degrees and p(p) > 600 MeV/c, theta(p) < 70 degrees is required. In this paper, both the <(nu)over bar>(mu), cross-sections and (nu) over bar (mu) + nu(mu), cross-sections on water and hydrocarbon targets and their ratios are provided by using the D'Agostini unfolding method. The results of the integrated (nu) over bar (mu), cross-section measurements over this phase space are sigma(H2O) = (1.082 +/- 0.068(stat.)(+0.145)(-0.128)(syst.)) x 10(-39) cm(2)/nucleon, sigma(CH) = (1.096 +/- 0.054 (stat.)(+0.132)(-0.117)(syst.)) x 10(-39) cm(2) /nucleon, and sigma(H2O)/sigma(CH) = 0.987 +/- 0.078 (stat.)(+0.093)(-0.090)(syst.). The (nu) over bar (mu), + nu(mu), cross-section is sigma(H2O) = (1.155 +/- 0.064(stat.)(+0.148)(-0.129)(syst.)) x 10(-39) cm(2)/nucleon, sigma(CH) = (1.159 +/- 0.049(stat.)(+0.129)(-0.115)(syst.)) x 10(-39) cm(2)/nucleon, and sigma(H2O)/sigma(CH) = 0.996 +/- 0.069(stat.)(+0.083)(-0.078)(syst.).

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