TY - GEN
T1 - First detection of CNO neutrinos with Borexino
AU - Borexino collaboration
AU - Settanta, G.
AU - Agostini, M.
AU - Altenmüller, K.
AU - Appel, S.
AU - Atroshchenko, V.
AU - Bagdasarian, Z.
AU - Basilico, D.
AU - Bellini, G.
AU - Benziger, J.
AU - Biondi, R.
AU - Bravo, D.
AU - Caccianiga, B.
AU - Calaprice, F.
AU - Caminata, A.
AU - Cavalcante, P.
AU - Chepurnov, A.
AU - DAngelo, D.
AU - Davini, S.
AU - Derbin, A.
AU - Di Giacinto, A.
AU - Di Marcello, V.
AU - Ding, X. F.
AU - Di Ludovico, A.
AU - Di Noto, L.
AU - Drachnev, I.
AU - Formozov, A.
AU - Franco, D.
AU - Galbiati, C.
AU - Ghiano, C.
AU - Giammarchi, M.
AU - Goretti, A.
AU - Göttel, A. S.
AU - Gromov, M.
AU - Guffanti, D.
AU - Ianni, Aldo
AU - Ianni, Andrea
AU - Jany, A.
AU - Jeschke, D.
AU - Kobychev, V.
AU - Korga, G.
AU - Kumaran, S.
AU - Laubenstein, M.
AU - Litvinovich, E.
AU - Lombardi, P.
AU - Lomskaya, I.
AU - Ludhova, L.
AU - Lukyanchenko, G.
AU - Lukyanchenko, L.
AU - Machulin, I.
AU - Martyn, J.
N1 - Publisher Copyright:
© 2021 Proceedings of the 55th Rencontres de Moriond - 2021 Electroweak Interactions and Unified Theories, EW 2021. All Rights Reserved.
PY - 2021
Y1 - 2021
N2 - Neutrinos are elementary particles which are known since many years as fundamental messengers from the interior of the Sun. The Standard Solar Model, which gives a theoretical description of all nuclear processes which happen in our star, predicts that roughly 99% of the energy produced is coming from a series of processes known as the pp chain. Such processes have been studied in detail over the last years by means of neutrinos, thanks also to the important measurements provided by the Borexino experiment. The remaining 1% is instead predicted to come from a separate loop-process, known as the CNO cycle. This sub-dominant process is theoretically well understood, but has so far escaped any direct observation. Another fundamental aspect is that the CNO cycle is indeed the main nuclear engine in stars more massive than the Sun. In 2020, thanks to the unprecedented radio-purity and temperature control achieved by the Borexino detector over recent years, the first ever detection of neutrinos from the CNO cycle has been finally announced. The milestone result confirms the existence of this nuclear fusion process in our Universe. Here, the details of the detector stabilization and the analysis techniques adopted are reported.
AB - Neutrinos are elementary particles which are known since many years as fundamental messengers from the interior of the Sun. The Standard Solar Model, which gives a theoretical description of all nuclear processes which happen in our star, predicts that roughly 99% of the energy produced is coming from a series of processes known as the pp chain. Such processes have been studied in detail over the last years by means of neutrinos, thanks also to the important measurements provided by the Borexino experiment. The remaining 1% is instead predicted to come from a separate loop-process, known as the CNO cycle. This sub-dominant process is theoretically well understood, but has so far escaped any direct observation. Another fundamental aspect is that the CNO cycle is indeed the main nuclear engine in stars more massive than the Sun. In 2020, thanks to the unprecedented radio-purity and temperature control achieved by the Borexino detector over recent years, the first ever detection of neutrinos from the CNO cycle has been finally announced. The milestone result confirms the existence of this nuclear fusion process in our Universe. Here, the details of the detector stabilization and the analysis techniques adopted are reported.
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M3 - Conference contribution
AN - SCOPUS:85180788940
T3 - Proceedings of the 55th Rencontres de Moriond - 2021 Electroweak Interactions and Unified Theories, EW 2021
SP - 221
EP - 226
BT - Proceedings of the 55th Rencontres de Moriond - 2021 Electroweak Interactions and Unified Theories, EW 2021
A2 - Auge, Etienne
A2 - Dumarchez, Jacques
A2 - Tran Thanh Van, Jean
PB - ARISF
T2 - 55th Rencontres de Moriond on Electroweak Interactions and Unified Theories, EW 2021
Y2 - 20 March 2021 through 27 March 2021
ER -