Experimental evidence of neutrinos produced in the CNO fusion cycle in   the Sun

M. Agostini; K. Altenm\"uller; S. Appel; V. Atroshchenko; Z.; Bagdasarian; D. Basilico; G. Bellini; J. Benziger; R. Biondi; D. Bravo; B.; Caccianiga; F. Calaprice; A. Caminata; P. Cavalcante; A. Chepurnov; D.; D'Angelo; S. Davini; A. Derbin; A. Di Giacinto; V. Di Marcello; X.F. Ding; A.; Di Ludovico; L. Di Noto; I. Drachnev; A. Formozov; D. Franco; C. Galbiati; C.; Ghiano; M. Giammarchi; A. Goretti; A.S. G\"ottel; M. Gromov; D. Guffanti,; Aldo Ianni; Andrea Ianni; A. Jany; D. Jeschke; V. Kobychev; G. Korga; S.; Kumaran; M. Laubenstein; E. Litvinovich; P. Lombardi; I. Lomskaya; L.; Ludhova; G. Lukyanchenko; L. Lukyanchenko; I. Machulin; J. Martyn; E. Meroni,; M. Meyer; L. Miramonti; M. Misiaszek; V. Muratova; B. Neumair; M. Nieslony,; R. Nugmanov; L. Oberauer; V. Orekhov; F. Ortica; M. Pallavicini; L. Papp; L.; Pellicci; \"O. Penek; L. Pietrofaccia; N. Pilipenko; A. Pocar; G. Raikov,; M.T. Ranalli; G. Ranucci; A. Razeto; A. Re; M. Redchuk; A. Romani; N. Rossi,; S. Sch\"onert; D. Semenov; G. Settanta; M. Skorokhvatov; A. Singhal; O.; Smirnov; A. Sotnikov; Y. Suvorov; R. Tartaglia; G. Testera; J. Thurn; E.; Unzhakov; F.L. Villante; A. Vishneva; R.B. Vogelaar; F. von Feilitzsch; M.; Wojcik; M. Wurm; S. Zavatarelli; K. Zuber; G. Zuzel. The BOREXINO; Collaboration

arXiv:2006.15115·hep-ex·July 23, 2021

Experimental evidence of neutrinos produced in the CNO fusion cycle in the Sun

M. Agostini, K. Altenm\"uller, S. Appel, V. Atroshchenko, Z., Bagdasarian, D. Basilico, G. Bellini, J. Benziger, R. Biondi, D. Bravo, B., Caccianiga, F. Calaprice, A. Caminata, P. Cavalcante, A. Chepurnov, D., D'Angelo, S. Davini, A. Derbin, A. Di Giacinto, V. Di Marcello

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TL;DR

This paper reports the first direct detection of neutrinos from the CNO fusion cycle in the Sun, confirming a key stellar process and opening new avenues for measuring solar metallicity.

Contribution

It provides the first experimental evidence of CNO neutrinos using the Borexino detector, demonstrating the process's contribution to solar energy and enabling future solar composition studies.

Findings

01

Detection of CNO neutrinos with high statistical significance

02

Quantification of CNO cycle contribution as about 1% of solar energy

03

Method development for background suppression and detector stabilization

Abstract

For most of their existence stars are fueled by the fusion of hydrogen into helium proceeding via two theoretically well understood processes, namely the $pp$ chain and the CNO cycle. Neutrinos emitted along such fusion processes in the solar core are the only direct probe of the deep interior of the star. A complete spectroscopy of neutrinos from the {\it pp} chain, producing about 99\% of the solar energy, has already been performed \cite{bib:Nature-2018}. Here, we report the direct observation, with a high statistical significance, of neutrinos produced in the CNO cycle in the Sun. This is the first experimental evidence of this process obtained with the unprecedentedly radio-pure large-volume liquid-scintillator Borexino detector located at the underground Laboratori Nazionali del Gran Sasso in Italy. The main difficulty of this experimental effort is to identify the excess of the…

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