Improved measurement of the reactor antineutrino flux and spectrum at Daya Bay
被引量:3
Improved measurement of the reactor antineutrino flux and spectrum at Daya Bay
摘要
A new measurement of the reactor antineutrino flux and energy spectrum by the Daya Bay reactor neutrino experiment is reported. The antineutrinos were generated by six 2.9 GWth nuclear reactors and detected by eight antineutrino detectors deployed in two near(560 m and 600 m flux-weighted baselines) and one far(1640 m flux-weighted baseline) underground experimental halls. With 621 days of data, more than 1.2 million inverse beta decay(IBD) candidates were detected. The IBD yield in the eight detectors was measured, and the ratio of measured to predicted flux was found to be 0.946±0.020(0.992±0.021) for the Huber+Mueller(ILL+Vogel) model. A 2.9σ deviation was found in the measured IBD positron energy spectrum compared to the predictions. In particular, an excess of events in the region of 4–6 MeV was found in the measured spectrum, with a local significance of 4.4σ. A reactor antineutrino spectrum weighted by the IBD cross section is extracted for model-independent predictions.
A new measurement of the reactor antineutrino flux and energy spectrum by the Daya Bay reactor neutrino experiment is reported. The antineutrinos were generated by six 2.9 GWth nuclear reactors and detected by eight antineutrino detectors deployed in two near(560 m and 600 m flux-weighted baselines) and one far(1640 m flux-weighted baseline) underground experimental halls. With 621 days of data, more than 1.2 million inverse beta decay(IBD) candidates were detected. The IBD yield in the eight detectors was measured, and the ratio of measured to predicted flux was found to be 0.946±0.020(0.992±0.021) for the Huber+Mueller(ILL+Vogel) model. A 2.9σ deviation was found in the measured IBD positron energy spectrum compared to the predictions. In particular, an excess of events in the region of 4–6 MeV was found in the measured spectrum, with a local significance of 4.4σ. A reactor antineutrino spectrum weighted by the IBD cross section is extracted for model-independent predictions.
基金
Supported in part by the Ministry of Science and Technology of China
the United States Department of Energy,the Chinese Academy of Sciences
the CAS Center for Excellence in Particle Physics
the National Natural Science Foundation of China
the Guangdong provincial government
the Shenzhen municipal government
the China General Nuclear Power Group
the Research Grants Council of the Hong Kong Special Administrative Region of China
the MOST and MOE in Taiwan
the U.S.National Science Foundation
the Ministry of Education,Youth and Sports of the Czech Republic
the Joint Institute of Nuclear Research in Dubna,Russia
the NSFC-RFBR joint research program
the National Commission for Scientific and Technological Research of Chile
同被引文献2
-
1K.A.Olive,K.Agashe,C.Amsler,M.Antonelli,J.-F.Arguin,D.M.Asner,H.Baer,H.R.Band,R.M.Barnett,T.Basaglia,C.W.Bauer,J.J.Beatty,V.I.Belousov,J.Beringer,G.Bernardi,S.Bethke,H.Bichsel,O.Biebe,E.Blucher,S.Blusk,G.Brooijmans,O.Buchmueller,V.Burkert,M.A.Bychkov,R.N.Cahn,M.Carena,A.Ceccucci,A.Cerr,D.Chakraborty,M.-C.Chen,R.S.Chivukula,K.Copic,G.Cowan,O.Dahl,G.D'Ambrosio,T.Damour,D.de Florian,A.de Gouvea,T.DeGrand,P.de Jong,G.Dissertor,B.A.Dobrescu,M.Doser,M.Drees,H.K.Dreiner,D.A.Edwards,S.Eidelman,J.Erler,V.V.Ezhela,W.Fetscher,B.D.Fields,B.Foster,A.Freitas,T.K.Gaisser,H.Gallagher,L.Garren,H.-J.Gerber,G.Gerbier,T.Gershon,T.Gherghetta,S.Golwala,M.Goodman,C.Grab,A.V.Gritsan,C.Grojean,D.E.Groom,M.Grnewald,A.Gurtu,T.Gutsche,H.E.Haber,K.Hagiwara,C.Hanhart,S.Hashimoto,Y.Hayato,K.G.Hayes,M.Heffner,B.Heltsley,J.J.Hernandez-Rey,K.Hikasa,A.Hocker,J.Holder,A.Holtkamp,J.Huston,J.D.Jackson,K.F.Johnson,T.Junk,M.Kado,D.Karlen,U.F.Katz,S.R.Klein,E.Klempt,R.V.Kowalewski,F.Krauss,M.Kreps,B.Krusche,Yu.V.Kuyanov,Y.Kwon,O.Lahav,J.Laiho,P.Langacker,A.Liddle,Z.Ligeti,C.-J.Lin,T.M.Liss,L.Littenberg,K.S.Lugovsky,S.B.Lugovsky,F.Maltoni,T.Mannel,A.V.Manohar,W.J.Marciano,A.D.Martin,A.Masoni,J.Matthews,D.Milstead,P.Molaro,K.Monig,F.Moortgat,M.J.Mortonson,H.Murayama,K.Nakamura,M.Narain,P.Nason,S.Navas,M.Neubert,P.Nevski,Y.Nir,L.Pape,J.Parsons,C.Patrignani,J.A.Peacock,M.Pennington,S.T.Petcov,Kavli IPMU,A.Piepke,A.Pomarol,A.Quadt,S.Raby,J.Rademacker,G.Raffel,B.N.Ratcliff,P.Richardson,A.Ringwald,S.Roesler,S.Rolli,A.Romaniouk,L.J.Rosenberg,J,L.Rosner,G.Rybka,C.T.Sachrajda,Y.Sakai,G.P.Salam,S.Sarkar,F.Sauli,O.Schneider,K.Scholberg,D.Scott,V.Sharma,S.R.Sharpe,M.Silari,T.Sjostrand,P.Skands,J.G.Smith,G.F.Smoot,S.Spanier,H.Spieler,C.Spiering,A.Stahl,T.Stanev,S.L.Stone,T.Sumiyoshi,M.J.Syphers,F.Takahashi,M.Tanabashi,J.Terning,L.Tiator,M.Titov,N.P.Tkachenko,N.A.Tornqvist,D.Tovey,G.Valencia,G.Venanzoni,M.G.Vincter,P.Vogel,A.Vogt,S.P.Wakely,W.Walkowiak,C.W.Walter,D.R.Ward,G.Weiglein,D.H.Weinberg,E.J.Weinberg,M.White,L.R.Wiencke,C.G.Wohl,L.Wolfenstein,J.Womersley,C.L.Woody,R.L.Workman,A.Yamamoto,W.-M.Yao,G.P.Zeller,O.V.Zenin,J.Zhang,R.-Y.Zhu,F.Zimmermann,P.A.Zyla,G.Harper,V.S.Lugovsky,P.Schaffner.REVIEW OF PARTICLE PHYSICS[J].Chinese Physics C,2014,38(9):1-4. 被引量:14
-
2HongGuang Zhang,Abdusalam Abdukerim,Wei Chen,Xun Chen,YunHua Chen,XiangYi Cui,BinBin Dong,DeQing Fang,ChangBo Fu,Karl Giboni,Franco Giuliani,LinHui Gu,XuYuan Guo,ZhiFan Guo,Ke Han,ChangDa He,ShengMing He,Di Huang,XingTao Huang,Zhou Huang,Peng Ji,XiangDong Ji,YongLin Ju,ShaoLi Li,Yao Li,Heng Lin,HuaXuan Liu,JiangLai Liu,YuGang Ma,YaJun Mao,KaiXiang Ni,JinHua Ning,XiangXiang Ren,Fang Shi,AnDi Tan,AnQing Wang,Cheng Wang,HongWei Wang,Meng Wang,QiuHong Wang,SiGuang Wang,XiuLi Wang,XuMing Wang,Zhou Wang,MengMeng Wu,ShiYong Wu,JingKai Xia,MengJiao Xiao,PengWei Xie,BinBin Yan,JiJun Yang,Yong Yang,ChunXu Yu,JuMin Yuan,JianFeng Yue,Dan Zhang,Tao Zhang,Li Zhao,QiBin Zheng,JiFang Zhou,Ning Zhou,XiaoPeng Zhou.Dark matter direct search sensitivity of the PandaX-4T experiment[J].Science China(Physics,Mechanics & Astronomy),2019,62(3):49-57. 被引量:8
引证文献3
-
1Yu-Ting Wei,Meng-Yun Guan,Jin-Chang Liu,Ze-Yuan Yu,Chang-Gen Yang,Cong Guo,Wei-Xing Xiong,You-Yu Gan,Qin Zhao,Jia-Jun Li.Prospects of detecting the reactor v_(e)-Ar coherent elastic scattering with a low-threshold dual-phase argon time projection chamber at Taishan[J].Radiation Detection Technology and Methods,2021,5(2):297-306.
-
2史旭晨,夏俊卿.利用宇宙学和粒子物理实验数据限制中微子质量[J].中国科学:物理学、力学、天文学,2022,52(8):155-162.
-
3朱景森,安丰鹏.反应堆几何效应对超短基线反应堆中微子实验中微子流强的影响[J].华东理工大学学报(自然科学版),2024,50(4):626-632.
-
1杨大卫.太阳中微子通量的估算[J].现代物理知识,1998,10(4):34-35.
-
2安丰鹏,安琪,白景芝,A.B.Balantekin,H.R.Band,W.Beriguete,M.Bishai,S.Blyth,R.L.Brown,曹国富,曹俊,R.Carr,W.T.Chan,常劲帆,Y.Chang,C.Chasman,陈和生,H.Y.Chen,陈申见,陈少敏,陈潇聪,陈晓辉,陈晓苏,陈羽,陈义学,J.J.Cherwinka,朱明中,J.P.Cummings,邓子艳,丁雅韵,M.V.Diwan,E.Draeger,杜小峰,D.Dwyer,W.R.Edwards,S.R.Ely,方绍东,付金煜,付在伟,葛良全,R.L.Gi11,M.Gonchar,龚光华,宫辉,Y.A.Gornushkin,顾文强,关梦云,郭新恒,R.W.Hackenburg,R.L.Hahn,S.Hans,郝慧峰,何苗,贺青,K.M.Heeger,衡月昆,P.Hinrichs,Y.K.Hor,Y.B.Hsiung,B.z.Hu,胡涛,黄翰雄,H.z.Huang,黄性涛,P.Huber,V.Issakov,z.Isvan,D.E.Jaffe,S.Jetter,季筱璐,季向盼,姜海静,焦健斌,R.A.Johnson,康丽,S.H.Kettell,M.Kramer,关健强,郭文伟,郭人能,C.Y.Lai,赖万昌,W.H.Lai,K.Lau,L.Lebanowski,J.Lee,雷瑞霆,R.Leitner,梁干庄,梁嘉怡,C.A.Lewis,李飞,李高嵩,李秋菊,李卫东,李小波,李小男,李学潜,李仪,李志斌,梁昊,林政儒,C.L.Lin,S.K.Lin,林延畅,凌家杰,J.M.Link,L.Littenberg,B.R.Littlejohn,D.W.Liu,刘金昌,刘江来,刘颖彪,陆昌国,路浩奇,陆永康,K.B.Luk,马秋梅,马续波,马骁妍,马宇蒨,K.T.McDonald,M.C.McFarlane,R.D.McKeown,Y.Meng,D.Mohapatra,Y.Nakajima,J.Napolitano,D.Naumov,I.Nemchenok,倪浩然,W.K.Ngai,聂阳波,宁哲,J.P.Ochoa-Ricoux,A.Olshevski,S.Patton,V.Pec,J.C.Peng,L.E.Piilonen,L.Pinsky,潘振声,齐法制,祁鸣,钱鑫,N.Raper,任杰,R.Rosero,B.Roskovec,阮锡超,邵贝贝,师恺,H.Steiner,孙功星,孙吉良,N.Tagg,谭耀豪,H.K.Tanaka,唐晓,H.Themann,Y.Torun,S.Trentalange,O.Tsai,K.V.Tsang,R.H.M.Tsang,C.E.Tull,Y.C.Tung,B.Viren,V.Vorobe1,C.H.Wang,王灵淑,王玲玉,王龙泽,王萌,王乃彦,王瑞光,W.Wang,王玺,王贻芳,王喆,王铮,王志民,D.M.Webber,魏瀚宇,魏亚东,温良剑,K.Whisnant,C.G.White,L.Whitehead,Y.Williamson,T.Wise,H.L.H.Wong,E.T.Worcester,F.F.Wu,吴群,习建博,夏冬梅,邢志忠,徐建一,徐晶,徐吉磊,徐晔,薛涛,杨长根,杨雷,叶梅,M.Yeh,Y.S.Yeh,B.L.Young,于泽源,占亮,C.Zhang,章飞虹,张家文,张清民,张书华,张一纯,张银鸿,张一心,张志坚,张子平,张智勇,赵洁,赵庆旺,赵豫斌,郑磊,钟玮丽,周莉,周祖英,庄红林,邹佳恒.Improved measurement of electron antineutrino disappearance at Daya Bay[J].Chinese Physics C,2013,37(1):1-20. 被引量:38
-
3Miao He.Overview on neutrinos and the Daya Bay experiment[J].Frontiers of physics,2013,8(3):242-247.
-
4Daya Bay reactor neutrino experiment:discovery of a new kind of neutrino oscillation[J].Science Foundation in China,2013,21(1):46-46.
-
5王江红.日本建造世界最大的中微子探测器[J].高能物理参考资料,1993(6):19-20.
-
6John F.Beacom,陈少敏,程建平,Sayed N.Doustimotlagh,高原宁,龚光华,宫辉,郭磊,韩然,何红建,黄性涛,李荐民,李金,李默涵,李学潜,廖玮,林贵林,刘佐伟,William Mc Donough,Ondˇrej rmek,唐健,万林焱,王元清,王喆,王综轶,魏瀚宇,习宇飞,徐晔,许勋杰,杨振伟,姚春发,Minfang Yeh,岳骞,张黎明,张洋,赵志宏,郑阳恒,周详,朱相雷,Kai Zuber.Physics prospects of the Jinping neutrino experiment[J].Chinese Physics C,2017,41(2):9-32. 被引量:2
-
7CAS Institute of High Energy Physics.The Daya Bay Reactor Neutrino Experiment[J].Bulletin of the Chinese Academy of Sciences,2012,26(2):117-122.
-
8ZHOU Bin,RUAN Xi-Chao,NIE Yang-Bo,ZHOU Zu-Ying,AN Feng-Peng,CAO Jun.A study of antineutrino spectra from spent nuclear fuel at Daya Bay[J].Chinese Physics C,2012,36(1):1-5.
-
9CHEN XiaoHui,LUO XiaoLan,HENG YueKun,WANG LingShu,TANG Xiao,MA XiaoYan,ZHUANG HongLin,BAND Henry R.,CHERWINKA Jeff J.,XIAO Qiang,HEEGER Karsten M..Leakage tests of the stainless steel vessels of the antineutrino detectors in the Daya Bay reactor neutrino experiment[J].Science China(Technological Sciences),2013,56(1):148-151. 被引量:2
-
10Jinzhou DU,Dhai MU,Haiqing SONG,Daoji LI,Ni SU,Shiping YAN,Yingjie GU.One hundred years of sedimentation history of heavy metals in Daya Bay, China[J].Chinese Journal Of Geochemistry,2006,25(B08):14-14.
