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JUNO sensitivity to low energy atmospheric neutrino spectra

Authors :
JUNO Collaboration
Abusleme, Angel
Adam, Thomas
Ahmad, Shakeel
Ahmed, Rizwan
Aiello, Sebastiano
Akram, Muhammad
An, Fengpeng
An, Guangpeng
An, Qi
Andronico, Giuseppe
Anfimov, Nikolay
Antonelli, Vito
Antoshkina, Tatiana
Asavapibhop, Burin
de André, João Pedro Athayde Marcondes
Auguste, Didier
Babic, Andrej
Baldini, Wander
Barresi, Andrea
Baussan, Eric
Bellato, Marco
Bergnoli, Antonio
Bernieri, Enrico
Birkenfeld, Thilo
Blin, Sylvie
Blum, David
Blyth, Simon
Bolshakova, Anastasia
Bongrand, Mathieu
Bordereau, Clément
Breton, Dominique
Brigatti, Augusto
Brugnera, Riccardo
Bruno, Riccardo
Budano, Antonio
Buscemi, Mario
Busto, Jose
Butorov, Ilya
Cabrera, Anatael
Cai, Hao
Cai, Xiao
Cai, Yanke
Cai, Zhiyan
Cammi, Antonio
Campeny, Agustin
Cao, Chuanya
Cao, Guofu
Cao, Jun
Caruso, Rossella
Cerna, Cédric
Chang, Jinfan
Chang, Yun
Chen, Pingping
Chen, Po-An
Chen, Shaomin
Chen, Xurong
Chen, Yi-Wen
Chen, Yixue
Chen, Yu
Chen, Zhang
Cheng, Jie
Cheng, Yaping
Chetverikov, Alexey
Chiesa, Davide
Chimenti, Pietro
Chukanov, Artem
Claverie, Gérard
Clementi, Catia
Clerbaux, Barbara
Di Lorenzo, Selma Conforti
Corti, Daniele
Costa, Salvatore
Corso, Flavio Dal
Dalager, Olivia
De La Taille, Christophe
Deng, Jiawei
Deng, Zhi
Deng, Ziyan
Depnering, Wilfried
Diaz, Marco
Ding, Xuefeng
Ding, Yayun
Dirgantara, Bayu
Dmitrievsky, Sergey
Dohnal, Tadeas
Dolzhikov, Dmitry
Donchenko, Georgy
Dong, Jianmeng
Doroshkevich, Evgeny
Dracos, Marcos
Druillole, Frédéric
Du, Shuxian
Dusini, Stefano
Dvorak, Martin
Enqvist, Timo
Enzmann, Heike
Fabbri, Andrea
Fajt, Lukas
Fan, Donghua
Fan, Lei
Fang, Can
Fang, Jian
Fang, Wenxing
Fargetta, Marco
Fedoseev, Dmitry
Fekete, Vladko
Feng, Li-Cheng
Feng, Qichun
Ford, Richard
Formozov, Andrey
Fournier, Amélie
Gan, Haonan
Gao, Feng
Garfagnini, Alberto
Genster, Christoph
Giammarchi, Marco
Giaz, Agnese
Giudice, Nunzio
Gonchar, Maxim
Gong, Guanghua
Gong, Hui
Gorchakov, Oleg
Gornushkin, Yuri
Göttel, Alexandre
Grassi, Marco
Grewing, Christian
Gromov, Vasily
Gu, Minghao
Gu, Xiaofei
Gu, Yu
Guan, Mengyun
Guardone, Nunzio
Gul, Maria
Guo, Cong
Guo, Jingyuan
Guo, Wanlei
Guo, Xinheng
Guo, Yuhang
Hackspacher, Paul
Hagner, Caren
Han, Ran
Han, Yang
Hassan, Muhammad Sohaib
He, Miao
He, Wei
Heinz, Tobias
Hellmuth, Patrick
Heng, Yuekun
Herrera, Rafael
Hong, Daojin
Hor, YuenKeung
Hou, Shaojing
Hsiung, Yee
Hu, Bei-Zhen
Hu, Hang
Hu, Jianrun
Hu, Jun
Hu, Shouyang
Hu, Tao
Hu, Zhuojun
Huang, Chunhao
Huang, Guihong
Huang, Hanxiong
Huang, Qinhua
Huang, Wenhao
Huang, Xin
Huang, Xingtao
Huang, Yongbo
Hui, Jiaqi
Huo, Lei
Huo, Wenju
Huss, Cédric
Hussain, Safeer
Insolia, Antonio
Ioannisian, Ara
Isocrate, Roberto
Jelmini, Beatrice
Jen, Kuo-Lun
Jeria, Ignacio
Ji, Xiaolu
Ji, Xingzhao
Jia, Huihui
Jia, Junji
Jian, Siyu
Jiang, Di
Jiang, Xiaoshan
Jin, Ruyi
Jing, Xiaoping
Jollet, Cécile
Jungthawan, Sirichok
Kalousis, Leonidas
Kampmann, Philipp
Kang, Li
Karagounis, Michael
Kazarian, Narine
Khan, Waseem
Khosonthongkee, Khanchai
Korablev, Denis
Kouzakov, Konstantin
Krasnoperov, Alexey
Krumshteyn, Zinovy
Kruth, Andre
Kutovskiy, Nikolay
Kuusiniemi, Pasi
Lachenmaier, Tobias
Landini, Cecilia
Leblanc, Sébastien
Lebrin, Victor
Lefevre, Frederic
Lei, Ruiting
Leitner, Rupert
Leung, Jason
Li, Demin
Li, Fei
Li, Fule
Li, Haitao
Li, Huiling
Li, Jiaqi
Li, Mengzhao
Li, Min
Li, Nan
Li, Qingjiang
Li, Ruhui
Li, Shanfeng
Li, Tao
Li, Weidong
Li, Weiguo
Li, Xiaomei
Li, Xiaonan
Li, Xinglong
Li, Yi
Li, Yufeng
Li, Zhaohan
Li, Zhibing
Li, Ziyuan
Liang, Hao
Liang, Jingjing
Liebau, Daniel
Limphirat, Ayut
Limpijumnong, Sukit
Lin, Guey-Lin
Lin, Shengxin
Lin, Tao
Ling, Jiajie
Lippi, Ivano
Liu, Fang
Liu, Haidong
Liu, Hongbang
Liu, Hongjuan
Liu, Hongtao
Liu, Hui
Liu, Jianglai
Liu, Jinchang
Liu, Min
Liu, Qian
Liu, Qin
Liu, Runxuan
Liu, Shuangyu
Liu, Shubin
Liu, Shulin
Liu, Xiaowei
Liu, Xiwen
Liu, Yan
Liu, Yunzhe
Lokhov, Alexey
Lombardi, Paolo
Lombardo, Claudio
Loo, Kai
Lu, Chuan
Lu, Haoqi
Lu, Jingbin
Lu, Junguang
Lu, Shuxiang
Lu, Xiaoxu
Lubsandorzhiev, Bayarto
Lubsandorzhiev, Sultim
Ludhova, Livia
Luo, Fengjiao
Luo, Guang
Luo, Pengwei
Luo, Shu
Luo, Wuming
Lyashuk, Vladimir
Ma, Bangzheng
Ma, Qiumei
Ma, Si
Ma, Xiaoyan
Ma, Xubo
Maalmi, Jihane
Malyshkin, Yury
Mantovani, Fabio
Manzali, Francesco
Mao, Xin
Mao, Yajun
Mari, Stefano M.
Marini, Filippo
Marium, Sadia
Martellini, Cristina
Martin-Chassard, Gisele
Martini, Agnese
Mayilyan, Davit
Mednieks, Ints
Meng, Yue
Meregaglia, Anselmo
Meroni, Emanuela
Meyhöfer, David
Mezzetto, Mauro
Miller, Jonathan
Miramonti, Lino
Monforte, Salvatore
Montini, Paolo
Montuschi, Michele
Müller, Axel
Muralidharan, Pavithra
Nastasi, Massimiliano
Naumov, Dmitry V.
Naumova, Elena
Navas-Nicolas, Diana
Nemchenok, Igor
Thi, Minh Thuan Nguyen
Ning, Feipeng
Ning, Zhe
Nunokawa, Hiroshi
Oberauer, Lothar
Ochoa-Ricoux, Juan Pedro
Olshevskiy, Alexander
Orestano, Domizia
Ortica, Fausto
Othegraven, Rainer
Pan, Hsiao-Ru
Paoloni, Alessandro
Parkalian, Nina
Parmeggiano, Sergio
Pei, Yatian
Pelliccia, Nicomede
Peng, Anguo
Peng, Haiping
Perrot, Frédéric
Petitjean, Pierre-Alexandre
Petrucci, Fabrizio
Pilarczyk, Oliver
Rico, Luis Felipe Piñeres
Popov, Artyom
Poussot, Pascal
Pratumwan, Wathan
Previtali, Ezio
Qi, Fazhi
Qi, Ming
Qian, Sen
Qian, Xiaohui
Qian, Zhen
Qiao, Hao
Qin, Zhonghua
Qiu, Shoukang
Rajput, Muhammad Usman
Ranucci, Gioacchino
Raper, Neill
Re, Alessandra
Rebber, Henning
Rebii, Abdel
Ren, Bin
Ren, Jie
Rezinko, Taras
Ricci, Barbara
Robens, Markus
Roche, Mathieu
Rodphai, Narongkiat
Romani, Aldo
Roskovec, Bedřich
Roth, Christian
Ruan, Xiangdong
Ruan, Xichao
Rujirawat, Saroj
Rybnikov, Arseniy
Sadovsky, Andrey
Saggese, Paolo
Salamanna, Giuseppe
Sanfilippo, Simone
Sangka, Anut
Sanguansak, Nuanwan
Sawangwit, Utane
Sawatzki, Julia
Sawy, Fatma
Schever, Michaela
Schuler, Jacky
Schwab, Cédric
Schweizer, Konstantin
Selyunin, Alexandr
Serafini, Andrea
Settanta, Giulio
Settimo, Mariangela
Shao, Zhuang
Sharov, Vladislav
Shaydurova, Arina
Shi, Jingyan
Shi, Yanan
Shutov, Vitaly
Sidorenkov, Andrey
Šimkovic, Fedor
Sirignano, Chiara
Siripak, Jaruchit
Sisti, Monica
Slupecki, Maciej
Smirnov, Mikhail
Smirnov, Oleg
Sogo-Bezerra, Thiago
Sokolov, Sergey
Songwadhana, Julanan
Soonthornthum, Boonrucksar
Sotnikov, Albert
Šrámek, Ondřej
Sreethawong, Warintorn
Stahl, Achim
Stanco, Luca
Stankevich, Konstantin
Štefánik, Dušan
Steiger, Hans
Steinmann, Jochen
Sterr, Tobias
Stock, Matthias Raphael
Strati, Virginia
Studenikin, Alexander
Sun, Gongxing
Sun, Shifeng
Sun, Xilei
Sun, Yongjie
Sun, Yongzhao
Suwonjandee, Narumon
Szelezniak, Michal
Tang, Jian
Tang, Qiang
Tang, Quan
Tang, Xiao
Tietzsch, Alexander
Tkachev, Igor
Tmej, Tomas
Treskov, Konstantin
Triossi, Andrea
Troni, Giancarlo
Trzaska, Wladyslaw
Tuve, Cristina
Ushakov, Nikita
Boom, Johannes van den
van Waasen, Stefan
Vanroyen, Guillaume
Vassilopoulos, Nikolaos
Vedin, Vadim
Verde, Giuseppe
Vialkov, Maxim
Viaud, Benoit
Vollbrecht, Moritz Cornelius
Volpe, Cristina
Vorobel, Vit
Voronin, Dmitriy
Votano, Lucia
Walker, Pablo
Wang, Caishen
Wang, Chung-Hsiang
Wang, En
Wang, Guoli
Wang, Jian
Wang, Jun
Wang, Kunyu
Wang, Lu
Wang, Meifen
Wang, Meng
Wang, Ruiguang
Wang, Siguang
Wang, Wei
Wang, Wenshuai
Wang, Xi
Wang, Xiangyue
Wang, Yangfu
Wang, Yaoguang
Wang, Yi
Wang, Yifang
Wang, Yuanqing
Wang, Yuman
Wang, Zhe
Wang, Zheng
Wang, Zhimin
Wang, Zongyi
Waqas, Muhammad
Watcharangkool, Apimook
Wei, Lianghong
Wei, Wei
Wei, Wenlu
Wei, Yadong
Wen, Liangjian
Wiebusch, Christopher
Wong, Steven Chan-Fai
Wonsak, Bjoern
Wu, Diru
Wu, Fangliang
Wu, Qun
Wu, Wenjie
Wu, Zhi
Wurm, Michael
Wurtz, Jacques
Wysotzki, Christian
Xi, Yufei
Xia, Dongmei
Xie, Yuguang
Xie, Zhangquan
Xing, Zhizhong
Xu, Benda
Xu, Cheng
Xu, Donglian
Xu, Fanrong
Xu, Hangkun
Xu, Jilei
Xu, Jing
Xu, Meihang
Xu, Yin
Xu, Yu
Yan, Baojun
Yan, Taylor
Yan, Wenqi
Yan, Xiongbo
Yan, Yupeng
Yang, Anbo
Yang, Changgen
Yang, Huan
Yang, Jie
Yang, Lei
Yang, Xiaoyu
Yang, Yifan
Yao, Haifeng
Yasin, Zafar
Ye, Jiaxuan
Ye, Mei
Ye, Ziping
Yegin, Ugur
Yermia, Frédéric
Yi, Peihuai
Yin, Na
Yin, Xiangwei
You, Zhengyun
Yu, Boxiang
Yu, Chiye
Yu, Chunxu
Yu, Hongzhao
Yu, Miao
Yu, Xianghui
Yu, Zeyuan
Yu, Zezhong
Yuan, Chengzhuo
Yuan, Ying
Yuan, Zhenxiong
Yuan, Ziyi
Yue, Baobiao
Zafar, Noman
Zambanini, Andre
Zavadskyi, Vitalii
Zeng, Shan
Zeng, Tingxuan
Zeng, Yuda
Zhan, Liang
Zhang, Aiqiang
Zhang, Feiyang
Zhang, Guoqing
Zhang, Haiqiong
Zhang, Honghao
Zhang, Jiawen
Zhang, Jie
Zhang, Jingbo
Zhang, Jinnan
Zhang, Peng
Zhang, Qingmin
Zhang, Shiqi
Zhang, Shu
Zhang, Tao
Zhang, Xiaomei
Zhang, Xuantong
Zhang, Xueyao
Zhang, Yan
Zhang, Yinhong
Zhang, Yiyu
Zhang, Yongpeng
Zhang, Yuanyuan
Zhang, Yumei
Zhang, Zhenyu
Zhang, Zhijian
Zhao, Fengyi
Zhao, Jie
Zhao, Rong
Zhao, Shujun
Zhao, Tianchi
Zheng, Dongqin
Zheng, Hua
Zheng, Minshan
Zheng, Yangheng
Zhong, Weirong
Zhou, Jing
Zhou, Li
Zhou, Nan
Zhou, Shun
Zhou, Tong
Zhou, Xiang
Zhu, Jiang
Zhu, Kejun
Zhu, Zhihang
Zhuang, Bo
Zhuang, Honglin
Zong, Liang
Zou, Jiaheng
Source :
Eur. Phys. J. C, 81 10 (2021) 887
Publication Year :
2021

Abstract

Atmospheric neutrinos are one of the most relevant natural neutrino sources that can be exploited to infer properties about cosmic rays and neutrino oscillations. The Jiangmen Underground Neutrino Observatory (JUNO) experiment, a 20 kton liquid scintillator detector with excellent energy resolution is currently under construction in China. JUNO will be able to detect several atmospheric neutrinos per day given the large volume. A study on the JUNO detection and reconstruction capabilities of atmospheric $\nu_e$ and $\nu_\mu$ fluxes is presented in this paper. In this study, a sample of atmospheric neutrino Monte Carlo events has been generated, starting from theoretical models, and then processed by the detector simulation. The excellent timing resolution of the 3'' PMT light detection system of JUNO detector and the much higher light yield for scintillation over Cherenkov allow to measure the time structure of the scintillation light with very high precision. Since $\nu_e$ and $\nu_\mu$ interactions produce a slightly different light pattern, the different time evolution of light allows to discriminate the flavor of primary neutrinos. A probabilistic unfolding method has been used, in order to infer the primary neutrino energy spectrum from the detector experimental observables. The simulated spectrum has been reconstructed between 100 MeV and 10 GeV, showing a great potential of the detector in the atmospheric low energy region.<br />Comment: 25 pages, 9 figures

Subjects

Subjects :
High Energy Physics - Experiment

Details

Database :
arXiv
Journal :
Eur. Phys. J. C, 81 10 (2021) 887
Publication Type :
Report
Accession number :
edsarx.2103.09908
Document Type :
Working Paper
Full Text :
https://doi.org/10.1140/epjc/s10052-021-09565-z