New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV

S. Locke; A. Coffani; K. Abe; C. Bronner; Y. Hayato; M. Ikeda; S. Imaizumi; H. Ito; J. Kameda; Y. Kataoka; M. Miura; S. Moriyama; Y. Nagao; M. Nakahata; Y. Nakajima; S. Nakayama; T. Okada; K. Okamoto; A. Orii; G. Pronost; H. Sekiya; M. Shiozawa; Y. Sonoda; Y. Suzuki; A. Takeda; Y. Takemoto; A. Takenaka; H. Tanaka; T. Yano; K. Hirade; Y. Kanemura; S. Miki; S. Watabe; S. Han; T. Kajita; K. Okumura; T. Tashiro; J. Xia; X. Wang; G. D. Megias; D. Bravo-Berguño; L. Labarga; Ll Marti; B. Zaldivar; B. W. Pointon; F. D.M. Blaszczyk; E. Kearns; J. L. Raaf; J. L. Stone; L. Wan; T. Wester; J. Bian; N. J. Griskevich; W. R. Kropp; S. Mine; M. B. Smy; H. W. Sobel; V. Takhistov; P. Weatherly; A. Yankelevich; J. Hill; J. Y. Kim; I. T. Lim; R. G. Park; B. Bodur; K. Scholberg; C. W. Walter; L. Bernard; O. Drapier; S. El Hedri; A. Giampaolo; M. Gonin; Th A. Mueller; P. Paganini; B. Quilain; A. D. Santos; T. Ishizuka; T. Nakamura; J. S. Jang; J. G. Learned; L. H.V. Anthony; A. A. Sztuc; Y. Uchida; D. Martin; M. Scott; V. Berardi; M. G. Catanesi; E. Radicioni; N. F. Calabria; L. N. Machado; G. De Rosa; G. Collazuol; F. Iacob; M. Lamoureux; N. Ospina; M. Mattiazzi; L. Ludovici; Y. Nishimura; Y. Maewaka; S. Cao; M. Friend; T. Hasegawa; T. Ishida; T. Kobayashi; M. Jakkapu; T. Matsubara; T. Nakadaira; K. Nakamura; Y. Oyama; K. Sakashita; T. Sekiguchi; T. Tsukamoto; Y. Nakano; T. Shiozawa; A. T. Suzuki; Y. Takeuchi; S. Yamamoto; Y. Kotsar; H. Ozaki; A. Ali; Y. Ashida; J. Feng; S. Hirota; A. K. Ichikawa; T. Kikawa; M. Mori; T. Nakaya; R. A. Wendell; K. Yasutome; P. Fernandez; N. McCauley; P. Mehta; K. M. Tsui; Y. Fukuda; Y. Itow; H. Menjo; T. Niwa; K. Sato; M. Tsukada; P. Mijakowski; J. Lagoda; S. M. Lakshmi; J. Zalipska; C. K. Jung; C. Vilela; M. J. Wilking; C. Yanagisawa; J. Jiang; K. Hagiwara; M. Harada; T. Horai; H. Ishino; S. Ito; Y. Koshio; W. Ma; N. Piplani; S. Sakai; H. Kitagawa; G. Barr; D. Barrow; L. Cook; A. Goldsack; S. Samani; D. Wark; F. Nova; T. Boschi; F. Di Lodovico; M. Taani; S. Zsoldos; J. Gao; J. Migenda; J. Y. Yang; S. J. Jenkins; M. Malek; J. M. McElwee; O. Stone; M. D. Thiesse; L. F. Thompson; H. Okazawa; K. Nakamura; S. B. Kim; I. Yu; J. W. Seo; K. Nishijima; M. Koshiba; K. Iwamoto; N. Ogawa; M. Yokoyama; K. Martens; M. R. Vagins; K. Nakagiri; M. Kuze; S. Izumiyama; T. Yoshida; M. Inomoto; M. Ishitsuka; R. Matsumoto; K. Ohta; M. Shinoki; T. Suganuma; T. Kinoshita; J. F. Martin; H. A. Tanaka; T. Towstego; R. Akutsu; M. Hartz; A. Konaka; P. De Perio; N. W. Prouse; S. Chen; B. D. Xu; Y. Zhang; M. Posiadala-Zezula; B. Richards; B. Jamieson; J. Walker; A. Minamino; K. Okamoto; G. Pintaudi; R. Sasaki

doi:10.1103/PhysRevD.110.032003

New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV

S. Locke
, A. Coffani
, K. Abe
, C. Bronner
, Y. Hayato
, M. Ikeda
, S. Imaizumi
, H. Ito
, J. Kameda
, Y. Kataoka
, M. Miura
, S. Moriyama
, Y. Nagao
, M. Nakahata
, Y. Nakajima
, S. Nakayama
, T. Okada
, K. Okamoto
, A. Orii
, G. Pronost

H. Sekiya, M. Shiozawa, Y. Sonoda, Y. Suzuki, A. Takeda, Y. Takemoto, A. Takenaka, H. Tanaka, T. Yano, K. Hirade, Y. Kanemura, S. Miki, S. Watabe, S. Han, T. Kajita, K. Okumura, T. Tashiro, J. Xia, X. Wang, G. D. Megias, D. Bravo-Berguño, L. Labarga, Ll Marti, B. Zaldivar, B. W. Pointon, F. D.M. Blaszczyk, E. Kearns, J. L. Raaf, J. L. Stone, L. Wan, T. Wester, J. Bian, N. J. Griskevich, W. R. Kropp, S. Mine, M. B. Smy, H. W. Sobel, V. Takhistov, P. Weatherly, A. Yankelevich, J. Hill, J. Y. Kim, I. T. Lim, R. G. Park, B. Bodur, K. Scholberg, C. W. Walter, L. Bernard, O. Drapier, S. El Hedri, A. Giampaolo, M. Gonin, Th A. Mueller, P. Paganini, B. Quilain, A. D. Santos, T. Ishizuka, T. Nakamura, J. S. Jang, J. G. Learned, L. H.V. Anthony, A. A. Sztuc, Y. Uchida, D. Martin, M. Scott, V. Berardi, M. G. Catanesi, E. Radicioni, N. F. Calabria, L. N. Machado, G. De Rosa, G. Collazuol, F. Iacob, M. Lamoureux, N. Ospina, M. Mattiazzi, L. Ludovici, Y. Nishimura, Y. Maewaka, S. Cao, M. Friend, T. Hasegawa, T. Ishida, T. Kobayashi, M. Jakkapu, T. Matsubara, T. Nakadaira, K. Nakamura, Y. Oyama, K. Sakashita, T. Sekiguchi, T. Tsukamoto, Y. Nakano, T. Shiozawa, A. T. Suzuki, Y. Takeuchi, S. Yamamoto, Y. Kotsar, H. Ozaki, A. Ali, Y. Ashida, J. Feng, S. Hirota, A. K. Ichikawa, T. Kikawa, M. Mori, T. Nakaya, R. A. Wendell, K. Yasutome, P. Fernandez, N. McCauley, P. Mehta, K. M. Tsui, Y. Fukuda, Y. Itow, H. Menjo, T. Niwa, K. Sato, M. Tsukada, P. Mijakowski, J. Lagoda, S. M. Lakshmi, J. Zalipska, C. K. Jung, C. Vilela, M. J. Wilking, C. Yanagisawa, J. Jiang, K. Hagiwara, M. Harada, T. Horai, H. Ishino, S. Ito, Y. Koshio, W. Ma, N. Piplani, S. Sakai, H. Kitagawa, G. Barr, D. Barrow, L. Cook, A. Goldsack, S. Samani, D. Wark, F. Nova, T. Boschi, F. Di Lodovico, M. Taani, S. Zsoldos, J. Gao, J. Migenda, J. Y. Yang, S. J. Jenkins, M. Malek, J. M. McElwee, O. Stone, M. D. Thiesse, L. F. Thompson, H. Okazawa, K. Nakamura, S. B. Kim, I. Yu, J. W. Seo, K. Nishijima, M. Koshiba, K. Iwamoto, N. Ogawa, M. Yokoyama, K. Martens, M. R. Vagins, K. Nakagiri, M. Kuze, S. Izumiyama, T. Yoshida, M. Inomoto, M. Ishitsuka, R. Matsumoto, K. Ohta, M. Shinoki, T. Suganuma, T. Kinoshita, J. F. Martin, H. A. Tanaka, T. Towstego, R. Akutsu, M. Hartz, A. Konaka, P. De Perio, N. W. Prouse, S. Chen, B. D. Xu, Y. Zhang, M. Posiadala-Zezula, B. Richards, B. Jamieson, J. Walker, A. Minamino, K. Okamoto, G. Pintaudi, R. Sasaki

Physics and Astronomy

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5 Scopus citations

Abstract

Radioactivity induced by cosmic muon spallation is a dominant source of backgrounds for O(10 MeV) neutrino interactions in water Cherenkov detectors. In particular, it is crucial to reduce backgrounds to measure the solar neutrino spectrum and find neutrino interactions from distant supernovae. In this paper we introduce new techniques to locate muon-induced hadronic showers and efficiently reject spallation backgrounds. Applying these techniques to the solar neutrino analysis with an exposure of 2790×22.5 kton·day increases the signal efficiency by 12.6%, approximately corresponding to an additional year of detector running. Furthermore, we present the first spallation simulation at Super-Kamiokande, where we model hadronic interactions using fluka. The agreement between the isotope yields and shower pattern in this simulation and in the data gives confidence in the accuracy of this simulation, and thus opens the door to use it to optimize muon spallation removal in new data with gadolinium-enhanced neutron capture detection.

Original language	English
Article number	032003
Journal	Physical Review D
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevD.110.032003
State	Published - Aug 1 2024

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10.1103/PhysRevD.110.032003

Cite this

Locke, S., Coffani, A., Abe, K., Bronner, C., Hayato, Y., Ikeda, M., Imaizumi, S., Ito, H., Kameda, J., Kataoka, Y., Miura, M., Moriyama, S., Nagao, Y., Nakahata, M., Nakajima, Y., Nakayama, S., Okada, T., Okamoto, K., Orii, A., ... Sasaki, R. (2024). New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV. Physical Review D, (3), Article 032003. https://doi.org/10.1103/PhysRevD.110.032003

@article{c02b778d783b4b7989943f4cb110d9f0,

title = "New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV",

abstract = "Radioactivity induced by cosmic muon spallation is a dominant source of backgrounds for O(10 MeV) neutrino interactions in water Cherenkov detectors. In particular, it is crucial to reduce backgrounds to measure the solar neutrino spectrum and find neutrino interactions from distant supernovae. In this paper we introduce new techniques to locate muon-induced hadronic showers and efficiently reject spallation backgrounds. Applying these techniques to the solar neutrino analysis with an exposure of 2790×22.5 kton·day increases the signal efficiency by 12.6\%, approximately corresponding to an additional year of detector running. Furthermore, we present the first spallation simulation at Super-Kamiokande, where we model hadronic interactions using fluka. The agreement between the isotope yields and shower pattern in this simulation and in the data gives confidence in the accuracy of this simulation, and thus opens the door to use it to optimize muon spallation removal in new data with gadolinium-enhanced neutron capture detection.",

author = "S. Locke and A. Coffani and K. Abe and C. Bronner and Y. Hayato and M. Ikeda and S. Imaizumi and H. Ito and J. Kameda and Y. Kataoka and M. Miura and S. Moriyama and Y. Nagao and M. Nakahata and Y. Nakajima and S. Nakayama and T. Okada and K. Okamoto and A. Orii and G. Pronost and H. Sekiya and M. Shiozawa and Y. Sonoda and Y. Suzuki and A. Takeda and Y. Takemoto and A. Takenaka and H. Tanaka and T. Yano and K. Hirade and Y. Kanemura and S. Miki and S. Watabe and S. Han and T. Kajita and K. Okumura and T. Tashiro and J. Xia and X. Wang and Megias, \{G. D.\} and D. Bravo-Bergu{\~n}o and L. Labarga and Ll Marti and B. Zaldivar and Pointon, \{B. W.\} and Blaszczyk, \{F. D.M.\} and E. Kearns and Raaf, \{J. L.\} and Stone, \{J. L.\} and L. Wan and T. Wester and J. Bian and Griskevich, \{N. J.\} and Kropp, \{W. R.\} and S. Mine and Smy, \{M. B.\} and Sobel, \{H. W.\} and V. Takhistov and P. Weatherly and A. Yankelevich and J. Hill and Kim, \{J. Y.\} and Lim, \{I. T.\} and Park, \{R. G.\} and B. Bodur and K. Scholberg and Walter, \{C. W.\} and L. Bernard and O. Drapier and Hedri, \{S. El\} and A. Giampaolo and M. Gonin and Mueller, \{Th A.\} and P. Paganini and B. Quilain and Santos, \{A. D.\} and T. Ishizuka and T. Nakamura and Jang, \{J. S.\} and Learned, \{J. G.\} and Anthony, \{L. H.V.\} and Sztuc, \{A. A.\} and Y. Uchida and D. Martin and M. Scott and V. Berardi and Catanesi, \{M. G.\} and E. Radicioni and Calabria, \{N. F.\} and Machado, \{L. N.\} and \{De Rosa\}, G. and G. Collazuol and F. Iacob and M. Lamoureux and N. Ospina and M. Mattiazzi and L. Ludovici and Y. Nishimura and Y. Maewaka and S. Cao and M. Friend and T. Hasegawa and T. Ishida and T. Kobayashi and M. Jakkapu and T. Matsubara and T. Nakadaira and K. Nakamura and Y. Oyama and K. Sakashita and T. Sekiguchi and T. Tsukamoto and Y. Nakano and T. Shiozawa and Suzuki, \{A. T.\} and Y. Takeuchi and S. Yamamoto and Y. Kotsar and H. Ozaki and A. Ali and Y. Ashida and J. Feng and S. Hirota and Ichikawa, \{A. K.\} and T. Kikawa and M. Mori and T. Nakaya and Wendell, \{R. A.\} and K. Yasutome and P. Fernandez and N. McCauley and P. Mehta and Tsui, \{K. M.\} and Y. Fukuda and Y. Itow and H. Menjo and T. Niwa and K. Sato and M. Tsukada and P. Mijakowski and J. Lagoda and Lakshmi, \{S. M.\} and J. Zalipska and Jung, \{C. K.\} and C. Vilela and Wilking, \{M. J.\} and C. Yanagisawa and J. Jiang and K. Hagiwara and M. Harada and T. Horai and H. Ishino and S. Ito and Y. Koshio and W. Ma and N. Piplani and S. Sakai and H. Kitagawa and G. Barr and D. Barrow and L. Cook and A. Goldsack and S. Samani and D. Wark and F. Nova and T. Boschi and \{Di Lodovico\}, F. and M. Taani and S. Zsoldos and J. Gao and J. Migenda and Yang, \{J. Y.\} and Jenkins, \{S. J.\} and M. Malek and McElwee, \{J. M.\} and O. Stone and Thiesse, \{M. D.\} and Thompson, \{L. F.\} and H. Okazawa and K. Nakamura and Kim, \{S. B.\} and I. Yu and Seo, \{J. W.\} and K. Nishijima and M. Koshiba and K. Iwamoto and N. Ogawa and M. Yokoyama and K. Martens and Vagins, \{M. R.\} and K. Nakagiri and M. Kuze and S. Izumiyama and T. Yoshida and M. Inomoto and M. Ishitsuka and R. Matsumoto and K. Ohta and M. Shinoki and T. Suganuma and T. Kinoshita and Martin, \{J. F.\} and Tanaka, \{H. A.\} and T. Towstego and R. Akutsu and M. Hartz and A. Konaka and \{De Perio\}, P. and Prouse, \{N. W.\} and S. Chen and Xu, \{B. D.\} and Y. Zhang and M. Posiadala-Zezula and B. Richards and B. Jamieson and J. Walker and A. Minamino and K. Okamoto and G. Pintaudi and R. Sasaki",

note = "Publisher Copyright: {\textcopyright} 2024 authors. Published by the American Physical Society. Published by the American Physical Society under the terms of the {"}https://creativecommons.org/licenses/by/4.0/{"}Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI. Funded by SCOAP3.",

year = "2024",

month = aug,

day = "1",

doi = "10.1103/PhysRevD.110.032003",

language = "English",

journal = "Physical Review D",

issn = "2470-0010",

number = "3",

}

Locke, S, Coffani, A, Abe, K, Bronner, C, Hayato, Y, Ikeda, M, Imaizumi, S, Ito, H, Kameda, J, Kataoka, Y, Miura, M, Moriyama, S, Nagao, Y, Nakahata, M, Nakajima, Y, Nakayama, S, Okada, T, Okamoto, K, Orii, A, Pronost, G, Sekiya, H, Shiozawa, M, Sonoda, Y, Suzuki, Y, Takeda, A, Takemoto, Y, Takenaka, A, Tanaka, H, Yano, T, Hirade, K, Kanemura, Y, Miki, S, Watabe, S, Han, S, Kajita, T, Okumura, K, Tashiro, T, Xia, J, Wang, X, Megias, GD, Bravo-Berguño, D, Labarga, L, Marti, L, Zaldivar, B, Pointon, BW, Blaszczyk, FDM, Kearns, E, Raaf, JL, Stone, JL, Wan, L, Wester, T, Bian, J, Griskevich, NJ, Kropp, WR, Mine, S, Smy, MB, Sobel, HW, Takhistov, V, Weatherly, P, Yankelevich, A, Hill, J, Kim, JY, Lim, IT, Park, RG, Bodur, B, Scholberg, K, Walter, CW, Bernard, L, Drapier, O, Hedri, SE, Giampaolo, A, Gonin, M, Mueller, TA, Paganini, P, Quilain, B, Santos, AD, Ishizuka, T, Nakamura, T, Jang, JS, Learned, JG, Anthony, LHV, Sztuc, AA, Uchida, Y, Martin, D, Scott, M, Berardi, V, Catanesi, MG, Radicioni, E, Calabria, NF, Machado, LN, De Rosa, G, Collazuol, G, Iacob, F, Lamoureux, M, Ospina, N, Mattiazzi, M, Ludovici, L, Nishimura, Y, Maewaka, Y, Cao, S, Friend, M, Hasegawa, T, Ishida, T, Kobayashi, T, Jakkapu, M, Matsubara, T, Nakadaira, T, Nakamura, K, Oyama, Y, Sakashita, K, Sekiguchi, T, Tsukamoto, T, Nakano, Y, Shiozawa, T, Suzuki, AT, Takeuchi, Y, Yamamoto, S, Kotsar, Y, Ozaki, H, Ali, A, Ashida, Y, Feng, J, Hirota, S, Ichikawa, AK, Kikawa, T, Mori, M, Nakaya, T, Wendell, RA, Yasutome, K, Fernandez, P, McCauley, N, Mehta, P, Tsui, KM, Fukuda, Y, Itow, Y, Menjo, H, Niwa, T, Sato, K, Tsukada, M, Mijakowski, P, Lagoda, J, Lakshmi, SM, Zalipska, J, Jung, CK, Vilela, C, Wilking, MJ, Yanagisawa, C, Jiang, J, Hagiwara, K, Harada, M, Horai, T, Ishino, H, Ito, S, Koshio, Y, Ma, W, Piplani, N, Sakai, S, Kitagawa, H, Barr, G, Barrow, D, Cook, L, Goldsack, A, Samani, S, Wark, D, Nova, F, Boschi, T, Di Lodovico, F, Taani, M, Zsoldos, S, Gao, J, Migenda, J, Yang, JY, Jenkins, SJ, Malek, M, McElwee, JM, Stone, O, Thiesse, MD, Thompson, LF, Okazawa, H, Nakamura, K, Kim, SB, Yu, I, Seo, JW, Nishijima, K, Koshiba, M, Iwamoto, K, Ogawa, N, Yokoyama, M, Martens, K, Vagins, MR, Nakagiri, K, Kuze, M, Izumiyama, S, Yoshida, T, Inomoto, M, Ishitsuka, M, Matsumoto, R, Ohta, K, Shinoki, M, Suganuma, T, Kinoshita, T, Martin, JF, Tanaka, HA, Towstego, T, Akutsu, R, Hartz, M, Konaka, A, De Perio, P, Prouse, NW, Chen, S, Xu, BD, Zhang, Y, Posiadala-Zezula, M, Richards, B, Jamieson, B, Walker, J, Minamino, A, Okamoto, K, Pintaudi, G & Sasaki, R 2024, 'New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV', Physical Review D, no. 3, 032003. https://doi.org/10.1103/PhysRevD.110.032003

TY - JOUR

T1 - New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV

AU - Locke, S.

AU - Coffani, A.

AU - Abe, K.

AU - Bronner, C.

AU - Hayato, Y.

AU - Ikeda, M.

AU - Imaizumi, S.

AU - Ito, H.

AU - Kameda, J.

AU - Kataoka, Y.

AU - Miura, M.

AU - Moriyama, S.

AU - Nagao, Y.

AU - Nakahata, M.

AU - Nakajima, Y.

AU - Nakayama, S.

AU - Okada, T.

AU - Okamoto, K.

AU - Orii, A.

AU - Pronost, G.

AU - Sekiya, H.

AU - Shiozawa, M.

AU - Sonoda, Y.

AU - Suzuki, Y.

AU - Takeda, A.

AU - Takemoto, Y.

AU - Takenaka, A.

AU - Tanaka, H.

AU - Yano, T.

AU - Hirade, K.

AU - Kanemura, Y.

AU - Miki, S.

AU - Watabe, S.

AU - Han, S.

AU - Kajita, T.

AU - Okumura, K.

AU - Tashiro, T.

AU - Xia, J.

AU - Wang, X.

AU - Megias, G. D.

AU - Bravo-Berguño, D.

AU - Labarga, L.

AU - Marti, Ll

AU - Zaldivar, B.

AU - Pointon, B. W.

AU - Blaszczyk, F. D.M.

AU - Kearns, E.

AU - Raaf, J. L.

AU - Stone, J. L.

AU - Wan, L.

AU - Wester, T.

AU - Bian, J.

AU - Griskevich, N. J.

AU - Kropp, W. R.

AU - Mine, S.

AU - Smy, M. B.

AU - Sobel, H. W.

AU - Takhistov, V.

AU - Weatherly, P.

AU - Yankelevich, A.

AU - Hill, J.

AU - Kim, J. Y.

AU - Lim, I. T.

AU - Park, R. G.

AU - Bodur, B.

AU - Scholberg, K.

AU - Walter, C. W.

AU - Bernard, L.

AU - Drapier, O.

AU - Hedri, S. El

AU - Giampaolo, A.

AU - Gonin, M.

AU - Mueller, Th A.

AU - Paganini, P.

AU - Quilain, B.

AU - Santos, A. D.

AU - Ishizuka, T.

AU - Nakamura, T.

AU - Jang, J. S.

AU - Learned, J. G.

AU - Anthony, L. H.V.

AU - Sztuc, A. A.

AU - Uchida, Y.

AU - Martin, D.

AU - Scott, M.

AU - Berardi, V.

AU - Catanesi, M. G.

AU - Radicioni, E.

AU - Calabria, N. F.

AU - Machado, L. N.

AU - De Rosa, G.

AU - Collazuol, G.

AU - Iacob, F.

AU - Lamoureux, M.

AU - Ospina, N.

AU - Mattiazzi, M.

AU - Ludovici, L.

AU - Nishimura, Y.

AU - Maewaka, Y.

AU - Cao, S.

AU - Friend, M.

AU - Hasegawa, T.

AU - Ishida, T.

AU - Kobayashi, T.

AU - Jakkapu, M.

AU - Matsubara, T.

AU - Nakadaira, T.

AU - Nakamura, K.

AU - Oyama, Y.

AU - Sakashita, K.

AU - Sekiguchi, T.

AU - Tsukamoto, T.

AU - Nakano, Y.

AU - Shiozawa, T.

AU - Suzuki, A. T.

AU - Takeuchi, Y.

AU - Yamamoto, S.

AU - Kotsar, Y.

AU - Ozaki, H.

AU - Ali, A.

AU - Ashida, Y.

AU - Feng, J.

AU - Hirota, S.

AU - Ichikawa, A. K.

AU - Kikawa, T.

AU - Mori, M.

AU - Nakaya, T.

AU - Wendell, R. A.

AU - Yasutome, K.

AU - Fernandez, P.

AU - McCauley, N.

AU - Mehta, P.

AU - Tsui, K. M.

AU - Fukuda, Y.

AU - Itow, Y.

AU - Menjo, H.

AU - Niwa, T.

AU - Sato, K.

AU - Tsukada, M.

AU - Mijakowski, P.

AU - Lagoda, J.

AU - Lakshmi, S. M.

AU - Zalipska, J.

AU - Jung, C. K.

AU - Vilela, C.

AU - Wilking, M. J.

AU - Yanagisawa, C.

AU - Jiang, J.

AU - Hagiwara, K.

AU - Harada, M.

AU - Horai, T.

AU - Ishino, H.

AU - Ito, S.

AU - Koshio, Y.

AU - Ma, W.

AU - Piplani, N.

AU - Sakai, S.

AU - Kitagawa, H.

AU - Barr, G.

AU - Barrow, D.

AU - Cook, L.

AU - Goldsack, A.

AU - Samani, S.

AU - Wark, D.

AU - Nova, F.

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AU - Zsoldos, S.

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AU - Migenda, J.

AU - Yang, J. Y.

AU - Jenkins, S. J.

AU - Malek, M.

AU - McElwee, J. M.

AU - Stone, O.

AU - Thiesse, M. D.

AU - Thompson, L. F.

AU - Okazawa, H.

AU - Nakamura, K.

AU - Kim, S. B.

AU - Yu, I.

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AU - Chen, S.

AU - Xu, B. D.

AU - Zhang, Y.

AU - Posiadala-Zezula, M.

AU - Richards, B.

AU - Jamieson, B.

AU - Walker, J.

AU - Minamino, A.

AU - Okamoto, K.

AU - Pintaudi, G.

AU - Sasaki, R.

N1 - Publisher Copyright: © 2024 authors. Published by the American Physical Society. Published by the American Physical Society under the terms of the "https://creativecommons.org/licenses/by/4.0/"Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI. Funded by SCOAP3.

PY - 2024/8/1

Y1 - 2024/8/1

N2 - Radioactivity induced by cosmic muon spallation is a dominant source of backgrounds for O(10 MeV) neutrino interactions in water Cherenkov detectors. In particular, it is crucial to reduce backgrounds to measure the solar neutrino spectrum and find neutrino interactions from distant supernovae. In this paper we introduce new techniques to locate muon-induced hadronic showers and efficiently reject spallation backgrounds. Applying these techniques to the solar neutrino analysis with an exposure of 2790×22.5 kton·day increases the signal efficiency by 12.6%, approximately corresponding to an additional year of detector running. Furthermore, we present the first spallation simulation at Super-Kamiokande, where we model hadronic interactions using fluka. The agreement between the isotope yields and shower pattern in this simulation and in the data gives confidence in the accuracy of this simulation, and thus opens the door to use it to optimize muon spallation removal in new data with gadolinium-enhanced neutron capture detection.

AB - Radioactivity induced by cosmic muon spallation is a dominant source of backgrounds for O(10 MeV) neutrino interactions in water Cherenkov detectors. In particular, it is crucial to reduce backgrounds to measure the solar neutrino spectrum and find neutrino interactions from distant supernovae. In this paper we introduce new techniques to locate muon-induced hadronic showers and efficiently reject spallation backgrounds. Applying these techniques to the solar neutrino analysis with an exposure of 2790×22.5 kton·day increases the signal efficiency by 12.6%, approximately corresponding to an additional year of detector running. Furthermore, we present the first spallation simulation at Super-Kamiokande, where we model hadronic interactions using fluka. The agreement between the isotope yields and shower pattern in this simulation and in the data gives confidence in the accuracy of this simulation, and thus opens the door to use it to optimize muon spallation removal in new data with gadolinium-enhanced neutron capture detection.

UR - https://www.scopus.com/pages/publications/85200747373

U2 - 10.1103/PhysRevD.110.032003

DO - 10.1103/PhysRevD.110.032003

M3 - Article

SN - 2470-0010

JO - Physical Review D

JF - Physical Review D

IS - 3

M1 - 032003

ER -

New methods and simulations for cosmogenic induced spallation removal in Super-Kamiokande-IV

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