English

JUNO Conceptual Design Report

Instrumentation and Detectors 2015-09-29 v2 High Energy Physics - Experiment

Abstract

The Jiangmen Underground Neutrino Observatory (JUNO) is proposed to determine the neutrino mass hierarchy using an underground liquid scintillator detector. It is located 53 km away from both Yangjiang and Taishan Nuclear Power Plants in Guangdong, China. The experimental hall, spanning more than 50 meters, is under a granite mountain of over 700 m overburden. Within six years of running, the detection of reactor antineutrinos can resolve the neutrino mass hierarchy at a confidence level of 3-4σ\sigma, and determine neutrino oscillation parameters sin2θ12\sin^2\theta_{12}, Δm212\Delta m^2_{21}, and Δmee2|\Delta m^2_{ee}| to an accuracy of better than 1%. The JUNO detector can be also used to study terrestrial and extra-terrestrial neutrinos and new physics beyond the Standard Model. The central detector contains 20,000 tons liquid scintillator with an acrylic sphere of 35 m in diameter. \sim17,000 508-mm diameter PMTs with high quantum efficiency provide \sim75% optical coverage. The current choice of the liquid scintillator is: linear alkyl benzene (LAB) as the solvent, plus PPO as the scintillation fluor and a wavelength-shifter (Bis-MSB). The number of detected photoelectrons per MeV is larger than 1,100 and the energy resolution is expected to be 3% at 1 MeV. The calibration system is designed to deploy multiple sources to cover the entire energy range of reactor antineutrinos, and to achieve a full-volume position coverage inside the detector. The veto system is used for muon detection, muon induced background study and reduction. It consists of a Water Cherenkov detector and a Top Tracker system. The readout system, the detector control system and the offline system insure efficient and stable data acquisition and processing.

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@article{arxiv.1508.07166,
  title  = {JUNO Conceptual Design Report},
  author = {T. Adam and F. An and G. An and Q. An and N. Anfimov and V. Antonelli and G. Baccolo and M. Baldoncini and E. Baussan and M. Bellato and L. Bezrukov and D. Bick and S. Blyth and S. Boarin and A. Brigatti and T. Brugière and R. Brugnera and M. Buizza Avanzini and J. Busto and A. Cabrera and H. Cai and X. Cai and A. Cammi and D. Cao and G. Cao and J. Cao and J. Chang and Y. Chang and M. Chen and P. Chen and Q. Chen and S. Chen and S. Chen and S. Chen and X. Chen and Y. Chen and Y. Cheng and D. Chiesa and A. Chukanov and M. Clemenza and B. Clerbaux and D. D'Angelo and H. de Kerret and Z. Deng and Z. Deng and X. Ding and Y. Ding and Z. Djurcic and S. Dmitrievsky and M. Dolgareva and D. Dornic and E. Doroshkevich and M. Dracos and O. Drapier and S. Dusini and M. A. Díaz and T. Enqvist and D. Fan and C. Fang and J. Fang and X. Fang and L. Favart and D. Fedoseev and G. Fiorentini and R. Ford and A. Formozov and R. Gaigher and H. Gan and A. Garfagnini and G. Gaudiot and C. Genster and M. Giammarchi and F. Giuliani and M. Gonchar and G. Gong and H. Gong and M. Gonin and Y. Gornushkin and M. Grassi and C. Grewing and V. Gromov and M. Gu and M. Guan and V. Guarino and W. Guo and X. Guo and Y. Guo and M. Göger-Neff and P. Hackspacher and C. Hagner and R. Han and Z. Han and J. Hao and M. He and D. Hellgartner and Y. Heng and D. Hong and S. Hou and Y. Hsiung and B. Hu and J. Hu and S. Hu and T. Hu and W. Hu and H. Huang and X. Huang and X. Huang and L. Huo and W. Huo and A. Ioannisian and D. Ioannisyan and M. Jeitler and K. Jen and S. Jetter and X. Ji and X. Ji and S. Jian and D. Jiang and X. Jiang and C. Jollet and M. Kaiser and B. Kan and L. Kang and M. Karagounis and N. Kazarian and S. Kettell and D. Korablev and A. Krasnoperov and S. Krokhaleva and Z. Krumshteyn and A. Kruth and P. Kuusiniemi and T. Lachenmaier and L. Lei and R. Lei and X. Lei and R. Leitner and F. Lenz and C. Li and F. Li and F. Li and J. Li and N. Li and S. Li and T. Li and W. Li and W. Li and X. Li and X. Li and X. Li and X. Li and Y. Li and Y. Li and Z. Li and H. Liang and H. Liang and J. Liang and M. Licciardi and G. Lin and S. Lin and T. Lin and Y. Lin and I. Lippi and G. Liu and H. Liu and H. Liu and J. Liu and J. Liu and J. Liu and J. Liu and Q. Liu and Q. Liu and S. Liu and S. Liu and Y. Liu and P. Lombardi and Y. Long and S. Lorenz and C. Lu and F. Lu and H. Lu and J. Lu and J. Lu and J. Lu and B. Lubsandorzhiev and S. Lubsandorzhiev and L. Ludhova and F. Luo and S. Luo and Z. Lv and V. Lyashuk and Q. Ma and S. Ma and X. Ma and X. Ma and Y. Malyshkin and F. Mantovani and Y. Mao and S. Mari and D. Mayilyan and W. McDonough and G. Meng and A. Meregaglia and E. Meroni and M. Mezzetto and J. Min and L. Miramonti and M. Montuschi and N. Morozov and T. Mueller and P. Muralidharan and M. Nastasi and D. Naumov and E. Naumova and I. Nemchenok and Z. Ning and H. Nunokawa and L. Oberauer and J. P. Ochoa-Ricoux and A. Olshevskiy and F. Ortica and H. Pan and A. Paoloni and N. Parkalian and S. Parmeggiano and V. Pec and N. Pelliccia and H. Peng and P. Poussot and S. Pozzi and E. Previtali and S. Prummer and F. Qi and M. Qi and S. Qian and X. Qian and H. Qiao and Z. Qin and G. Ranucci and A. Re and B. Ren and J. Ren and T. Rezinko and B. Ricci and M. Robens and A. Romani and B. Roskovec and X. Ruan and X. Ruan and A. Rybnikov and A. Sadovsky and P. Saggese and G. Salamanna and J. Sawatzki and J. Schuler and A. Selyunin and G. Shi and J. Shi and Y. Shi and V. Sinev and C. Sirignano and M. Sisti and O. Smirnov and M. Soiron and A. Stahl and L. Stanco and J. Steinmann and V. Strati and G. Sun and X. Sun and Y. Sun and Y. Sun and D. Taichenachev and J. Tang and A. Tietzsch and I. Tkachev and W. H. Trzaska and Y. Tung and S. van Waasen and C. Volpe and V. Vorobel and L. Votano and C. Wang and C. Wang and C. Wang and G. Wang and H. Wang and M. Wang and R. Wang and S. Wang and W. Wang and W. Wang and Y. Wang and Y. Wang and Y. Wang and Y. Wang and Z. Wang and Z. Wang and Z. Wang and Z. Wang and Z. Wang and W. Wei and Y. Wei and M. Weifels and L. Wen and Y. Wen and C. Wiebusch and S. Wipperfurth and S. C. Wong and B. Wonsak and C. Wu and Q. Wu and Z. Wu and M. Wurm and J. Wurtz and Y. Xi and D. Xia and J. Xia and M. Xiao and Y. Xie and J. Xu and J. Xu and L. Xu and Y. Xu and B. Yan and X. Yan and C. Yang and C. Yang and H. Yang and L. Yang and M. Yang and Y. Yang and Y. Yang and Y. Yang and E. Yanovich and Y. Yao and M. Ye and X. Ye and U. Yegin and F. Yermia and Z. You and B. Yu and C. Yu and C. Yu and G. Yu and Z. Yu and Y. Yuan and Z. Yuan and M. Zanetti and P. Zeng and S. Zeng and T. Zeng and L. Zhan and C. Zhang and F. Zhang and G. Zhang and H. Zhang and J. Zhang and J. Zhang and J. Zhang and K. Zhang and P. Zhang and Q. Zhang and T. Zhang and X. Zhang and X. Zhang and Y. Zhang and Y. Zhang and Y. Zhang and Y. Zhang and Y. Zhang and Y. Zhang and Z. Zhang and Z. Zhang and J. Zhao and M. Zhao and T. Zhao and Y. Zhao and H. Zheng and M. Zheng and X. Zheng and Y. Zheng and W. Zhong and G. Zhou and J. Zhou and L. Zhou and N. Zhou and R. Zhou and S. Zhou and W. Zhou and X. Zhou and Y. Zhou and H. Zhu and K. Zhu and H. Zhuang and L. Zong and J. Zou},
  journal= {arXiv preprint arXiv:1508.07166},
  year   = {2015}
}

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328 pages, 211 figures

R2 v1 2026-06-22T10:43:38.608Z