2023-01-25 12:48 |
[GSI-2023-00269]
Poster (Panel discussion)
Vollbrecht, M. C.
OSIRIS: The Online Scintillator Internal Radioactivity Investigation System of JUNO
2022XXX International Conference on Neutrino Physics and Astrophysics, NEUTRINO 2022, Online (Seoul)Online (Seoul), South Korea, 30 May 2022 - 4 Jun 20222022-05-302022-06-04
The Online Scintillator Internal Radioactivity Investigation System (OSIRIS) is a 20 ton liquid scintillator (LS) detector. During the months-long filling of the 20 kton JUNO central detector, it will monitor the LS radiopurity, ensuring stringent radiopurity levels needed for the various physics goals of JUNO. [...]
External link: Fulltext
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2022-12-16 15:59 |
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2022-12-15 10:37 |
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2022-11-22 10:25 |
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2022-11-14 16:59 |
[GSI-2022-00764]
Poster (Panel discussion)
Rifai, M.
Atmospheric neutrino physics in JUNO: reconstruction of GeV Interaction
2022XXX International Conference on Neutrino Physics and Astrophysics, NEUTRINO 2022, Online (Seoul)Online (Seoul), South Korea, 30 May 2022 - 4 Jun 20222022-05-302022-06-04
[10.5281/ZENODO.6804861]
The Jiangmen Underground Neutrino Observatory (JUNO), is a 20 kton multi-purpose liquid-scintillator detector to be completed in 2023. Its main goal is the determination of the neutrino mass ordering using the measurement of the vacuum-dominated oscillation pattern of reactor anti-neutrinos from two nearby nuclear power plants. [...]
OpenAccess: PDF;
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2022-11-14 16:55 |
[GSI-2022-00763]
Poster (Panel discussion)
Pelicci, L.
Solar neutrino physics with JUNO: analysis strategy and sensitivity studies for Be7, pep, and CNO neutrinos
2022XXX International Conference on Neutrino Physics and Astrophysics, NEUTRINO 2022, Online (Seoul)Online (Seoul), South Korea, 30 May 2022 - 4 Jun 20222022-05-302022-06-04
[10.5281/ZENODO.6785412]
The JUNO experiment, currently under construction in Jiangmen (China), is a 20 kt multi-purpose liquid scintillator detector. Although it was originally designed for neutrino mass ordering determination, thanks to its large target mass and excellent energy resolution (3% at 1 MeV), JUNO has the potential to provide solar neutrino measurement with an accuracy highly competitive with respect to the current state-of-the-art in the solar neutrino field. [...]
OpenAccess: PDF;
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2022-11-14 16:49 |
[GSI-2022-00762]
Poster (Panel discussion)
Rifai, M.
Physics Prospects of the JUNO Experiment
202241st International Symposium on Physics in Collision, PIC 2022, TbilisiTbilisi, Rep of Georgia, 5 Sep 2022 - 9 Sep 20222022-09-052022-09-09
The Jiangmen Underground Neutrino Observatory (JUNO) is a 20 kton liquid scintillator detector with the main goal to determine the neutrino mass ordering (NMO). JUNO construction in southern China,in an underground laboratory with 650 m rock overburden, is expected to be completed by the end of 2023.Thanks to high scintillation light yield, high transparency, 78% optical coverage and large photon detection efficiency, JUNO will achieve an unprecedented energy resolution of 3% at 1MeV. [...]
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2021-12-16 18:15 |
[GSI-2021-01289]
Poster (After Call)
Kampmann, P. R.
Physics potential of the JUNO Experiment
202140th International Symposium on Physics in Collision, AachenAachen, Germany, 14 Sep 2021 - 17 Sep 20212021-09-142021-09-17
The Jiangmen Underground Neutrino Observatory (JUNO) is a multi-purpose neutrino experiment currently under construction in Southern China, expecting to start data-taking in 2023.As its primary goal, it aims to address the determination of the Neutrino Mass Ordering with the study of the oscillated reactor electron anti-neutrino spectrum at a baseline of about 53 km.To acquire a sufficient event statistic and the required unprecedented energy resolution of 3% at 1 MeV, the main detector consists of a large 20 kt liquid scintillator target, instrumented with 17,612 20''-PMTs and 25,600 3'' PMTs and will be placed 700 m underground.This exceptional experimental setup provides the opportunity for JUNO to give significant contributions to various topics in modern particle- and astrophysics.Besides the precision measurement of neutrino oscillation parameters, JUNO aims to measure geo-neutrinos, solar neutrinos, atmospheric neutrinos, and galactic core-collapse supernova neutrinos.Furthermore, JUNO has the potential to be sensitive to the diffuse supernova neutrino background as well as nucleon decays, if existent.This poster gives an overview of the JUNO experiment with a focus on its physics potential on the various topics..
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2020-04-02 16:25 |
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2019-02-19 09:17 |
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