We have seen a substantial progress in neutrino physics during the past years. One of the most pressing questions is the resolution of the different hypothesis on the ordering of the mass eigenstates of the neutrinos. The resolution of this question is the prime objective of the JUNO project. In addition, the experiment will address a series of interesting questions in parti-cle astrophysics (i.e. supernova observations), geophysics (geoneutrinos), and particle physics (i.e. proton decay).The JUNO detector is under construction in southern China in the province of Guangdong. It is a 20 kt liquid scintillator detector based on the technologies of Borexino and Double Chooz and the developments for the LENA project. Since January 2016, the DFG research unit contribut-ed substantially to the technical developments for JUNO. In the second funding period, we want to complete these developments and focus more and more on the reconstruction of the events and the preparation of the data analysis.
DFG Programme
Research Units
Projects
-
Ausleseelektronik und Datenerfassung
(Applicants
Stahl, Achim
;
van Waasen, Stefan
)
-
Coordination Funds
(Applicant
Stahl, Achim
)
-
Coordination Funds
(Applicant
Stahl, Achim
)
-
Ereignisrekonstruktion und Software
(Applicant
Hagner, Caren
)
-
Myoncherenkovveto
(Applicant
Lachenmaier, Tobias
)
-
Physikpotential
(Applicants
Stahl, Achim
;
Wurm, Michael
)
-
Reinheit von Detektormaterialien
(Applicants
Oberauer, Lothar
;
Wurm, Michael
)
-
WP1 Physics Analysis
(Applicants
Lachenmaier, Tobias
;
Ludhova, Livia
)
-
WP2 Event Reconstruction
(Applicant
Hagner, Caren
)
-
WP3 Liquid Scintillator
(Applicant
Oberauer, Lothar
)
-
WP4 Electronics and Data Acquisition
(Applicant
Stahl, Achim
)
-
WP5 Muon Veto
(Applicant
Lachenmaier, Tobias
)
-
WP6 PMT Test Stands
(Applicants
Hagner, Caren
;
Lachenmaier, Tobias
)
-
WP7 OSIRIS
(Applicants
Ludhova, Livia
;
Wurm, Michael
)
