Hyper-Kamiokande Design Report

Hyper-Kamiokande Proto-Collaboration: K. Abe; Ke. Abe; H. Aihara; A.; Aimi; R. Akutsu; C. Andreopoulos; I. Anghel; L.H.V. Anthony; M. Antonova; Y.; Ashida; V. Aushev; M. Barbi; G.J. Barker; G. Barr; P. Beltrame; V. Berardi,; M. Bergevin; S. Berkman; L. Berns; T. Berry; S. Bhadra; D. Bravo-Bergu\~no,; F.d.M. Blaszczyk; A. Blondel; S. Bolognesi; S.B. Boyd; A. Bravar; C. Bronner,; M. Buizza Avanzini; F.S. Cafagna; A. Cole; R. Calland; S. Cao; S.L.; Cartwright; M.G. Catanesi; C. Checchia; Z. Chen-Wishart; J.H. Choi; K. Choi,; J.Coleman; G. Collazuol; G. Cowan; L. Cremonesi; T. Dealtry; G. De Rosa; C.; Densham; D. Dewhurst; E.L. Drakopoulou; F. Di Lodovico; O. Drapier; J.; Dumarchez; P. Dunne; M. Dziewiecki; S. Emery; A. Esmaili; A. Evangelisti; E.; Fernandez-Martinez; T. Feusels; A. Finch; A.Fiorentini; G. Fiorillo; M.; Fitton; K. Frankiewicz; M. Friend; Y. Fujii; Y. Fukuda; D.Fukuda; K. Ganezer,; C. Giganti; M. Gonin; N. Grant; P. Gumplinger; D.R. Hadley; B. Hartfiel; M.; Hartz; Y. Hayato; K. Hayrapetyan; J. Hill; S. Hirota; S. Horiuchi,; A.K.Ichikawa; T. Iijima; M. Ikeda; J. Imber; K. Inoue; J. Insler; R.A.; Intonti; A. Ioannisian; T. Ishida; H. Ishino; M. Ishitsuka; Y. Itow; K.; Iwamoto; A. Izmaylov; B. Jamieson; H.I. Jang; J.S.Jang; S.H. Jeon; M. Jiang,; P. Jonsson; K.K. Joo; A. Kaboth; C. Kachulis; T. Kajita; J. Kameda; Y.; Kataoka; T. Katori; K. Kayrapetyan; E. Kearns; M. Khabibullin; A.; Khotjantsev; J.H. Kim; J.Y. Kim; S.B. Kim; S.Y. Kim; S. King; Y. Kishimoto,; T. Kobayashi; M. Koga; A. Konaka; L.L. Kormos; Y. Koshio; A. Korzenev; K.L.; Kowalik; W.R. Kropp; Y. Kudenko; R. Kurjata; T. Kutter; M. Kuze; L. Labarga,; J. Lagoda; P.J.J. Lasorak; M. Laveder; M. Lawe; J.G. Learned; I.T. Lim; T.; Lindner; R. P. Litchfield; A. Longhin; P. Loverre; T. Lou; L. Ludovici; W.; Ma; L. Magaletti; K. Mahn; M. Malek; L. Maret; C. Mariani; K. Martens; Ll.; Marti; J.F. Martin; J. Marzec; S. Matsuno; E. Mazzucato; M. McCarthy; N.; McCauley; K.S. McFarland; C. McGrew; A. Mefodiev; P. Mermod; C. Metelko; M.; Mezzetto; J. Migenda; P. Mijakowski; H. Minakata; A. Minamino; S. Mine; O.; Mineev; A. Mitra; M. Miura; T. Mochizuki; J. Monroe; D.H. Moon; S. Moriyama,; T. Mueller; F. Muheim; K. Murase; F. Muto; M. Nakahata; Y. Nakajima; K.; Nakamura; T. Nakaya; S. Nakayama; C. Nantais; M. Needham; T. Nicholls; Y.; Nishimura; E. Noah; F. Nova; J. Nowak; H. Nunokawa; Y. Obayashi; H.M.; O'Keeffe; Y. Okajima; K. Okumura; Yu. Onishchuk; E. O'Sullivan; L.; O'Sullivan; T. Ovsiannikova; R.A. Owen; Y. Oyama; M.Y. Pac; V. Palladino,; J.L. Palomino; V. Paolone; W. Parker; S. Parsa; D. Payne; J.D. Perkin; C.; Pidcott; E. Pinzon Guerra; S. Playfer; B. Popov; M. Posiadala-Zezula; J. M.; Poutissou; A. Pritchard; N.W. Prouse; G. Pronost; P. Przewlocki; B. Quilain,; E. Radicioni; P.N. Ratoff; F. Retiere; C. Riccio; B. Richards; E. Rondio,; H.J. Rose; C. Rott; S.D. Rountree; A.C. Ruggeri; A. Rychter; R. Sacco; M.; Sakuda; M.C. Sanchez; E. Scantamburlo; M. Scott; S.M. Sedgwick; Y. Seiya; T.; Sekiguchi; H. Sekiya; S.H. Seo; D. Sgalaberna; R. Shah; A. Shaikhiev; I.; Shimizu; M. Shiozawa; Y. Shitov; S. Short; C. Simpson; G. Sinnis; M.B. Smy,; S. Snow; J. Sobczyk; H.W. Sobel; Y. Sonoda; R. Spina; T. Stewart; J.L. Stone,; Y. Suda; Y. Suwa; Y. Suzuki; A.T. Suzuki; R. Svoboda; M. Taani; R. Tacik; A.; Takeda; A. Takenaka; A. Taketa; Y. Takeuchi; V. Takhistov; H.A. Tanaka,; H.K.M. Tanaka; H. Tanaka; R. Terri; M. Thiesse; L.F. Thompson; M. Thorpe; S.; Tobayama; C. Touramanis; T. Towstego; T. Tsukamoto; K.M. Tsui; M. Tzanov; Y.; Uchida; M.R. Vagins; G. Vasseur; C. Vilela; R.B. Vogelaar; J. Walding; J.; Walker; M. Ward; D. Wark; M.O. Wascko; A. Weber; R. Wendell; R.J. Wilkes,; M.J. Wilking; J.R. Wilson; T. Xin; K. Yamamoto; C. Yanagisawa; T. Yano; S.; Yen; N. Yershov; D.N. Yeum; M. Yokoyama; T. Yoshida; I. Yu; M. Yu; J.; Zalipska; K. Zaremba; M. Ziembicki; M. Zito; S. Zsoldos

arXiv:1805.04163·physics.ins-det·November 30, 2018·439 cites

Hyper-Kamiokande Design Report

Hyper-Kamiokande Proto-Collaboration: K. Abe, Ke. Abe, H. Aihara, A., Aimi, R. Akutsu, C. Andreopoulos, I. Anghel, L.H.V. Anthony, M. Antonova, Y., Ashida, V. Aushev, M. Barbi, G.J. Barker, G. Barr, P. Beltrame, V. Berardi,, M. Bergevin, S. Berkman, L. Berns, T. Berry, S. Bhadra

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TL;DR

Hyper-Kamiokande is a next-generation, large-scale water Cherenkov detector in Japan designed to advance neutrino physics, proton decay searches, and astrophysical observations with improved technology and precision.

Contribution

It introduces a new, larger detector with advanced photosensors, enhancing capabilities for neutrino oscillation, CP violation, proton decay, and astrophysical neutrino detection.

Findings

01

Largest underground water Cherenkov detector planned

02

Enhanced photosensors for higher efficiency and faster detection

03

Significant improvements in proton decay sensitivity

Abstract

On the strength of a double Nobel prize winning experiment (Super)Kamiokande and an extremely successful long baseline neutrino programme, the third generation Water Cherenkov detector, Hyper-Kamiokande, is being developed by an international collaboration as a leading worldwide experiment based in Japan. The Hyper-Kamiokande detector will be hosted in the Tochibora mine, about 295 km away from the J-PARC proton accelerator research complex in Tokai, Japan. The currently existing accelerator will be steadily upgraded to reach a MW beam by the start of the experiment. A suite of near detectors will be vital to constrain the beam for neutrino oscillation measurements. A new cavern will be excavated at the Tochibora mine to host the detector. The experiment will be the largest underground water Cherenkov detector in the world and will be instrumented with new technology photosensors,…

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Taxonomy

TopicsNeutrino Physics Research · Astrophysics and Cosmic Phenomena · Particle physics theoretical and experimental studies