Short distance neutrino oscillations with Borexino

6533b7d8fe1ef96bd126b889

RESEARCH PRODUCT

Short distance neutrino oscillations with Borexino

L. Papp M. Cribier O. Smirnov Fausto Ortica Lino Miramonti Alessandra Re E. Litvinovich E. Litvinovich G. Mention V. Fischer Gioacchino Ranucci N. Rossi S. Farinon G. Bellini R. Tartaglia I. N. Machulin I. N. Machulin Hui Wang Marco Pallavicini D. D'angelo F. Von Feilitzsch S. Schönert R. B. Vogelaar J. Winter S. V. Sukhotin M. Vivier A. Caminata N. Berton Anton Empl F. Gabriele Y. Suvorov Y. Suvorov Cristiano Galbiati O. Zaimidoroga Livia Ludhova D. Franco Matteo Agostini A. M. Goretti A. S. Chepurnov C. Ghiano V. N. Muratova V. V. Kobychev Caren Hagner A. Pocar G. Bonfini L. Perasso J. Maricic Aldo Ianni W. Maneschg Kai Zuber Aldo Romani Denis Korablev Frank Calaprice S. Appel Hardy Simgen M. Obolensky S. Davini B. Neumair P. Cavalcante J. Gaffiot B. Lehnert L. Di Noto Matthias Laubenstein Michael Meyer A.v. Etenko A.v. Etenko K. Fomenko M. Misiaszek M. Göger-neff K. Altenmüller Andrea Ianni D. Bick D. Bravo D. Kryn Jonathan M. Link Sandra Zavatarelli M. D. Skorokhvatov M. D. Skorokhvatov G. Korga Michael Wurm Marcin Wójcik B. Caccianiga C. Veyssiere L. Scola Tobias Lachenmaier E. Meroni Marco Giammarchi G. Testera Paolo Lombardi Michele Montuschi A. V. Derbin M. Durero Lothar Oberauer Thierry Lasserre G. Zuzel E. V. Hungerford S. Marcocci A. Sotnikov Jay Burton Benziger G. Lukyanchenko M. Kaiser F. Lombardi A. Razeto R. Musenich N. Jonquères M. Gromov T. Houdy

subject

Particle physics Sterile neutrino neutrino: solar Physics::Instrumentation and Detectors QC1-999 Solar neutrino scintillation counter: liquid anomaly neutrino: beam 7. Clean energy 01 natural sciences Nuclear physics MiniBooNE Physics and Astronomy (all)0103 physical sciences [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]010306 general physics Neutrino oscillation Borexino energy: low Physics gallium 010308 nuclear & particles physics antineutrino: beam Physics Detector High Energy Physics::Phenomenology talk: Noto 2014/09/30 neutrino: sterile calibration neutrino: nuclear reactor cerium LSND radioactivity High Energy Physics::Experiment Borexino neutrino: family chromium neutrino: oscillation Neutrino Anomaly (physics)performance experimental results

description

International audience; The Borexino detector has convincingly shown its outstanding performances in the low energy, sub-MeV regime through its unprecedented accomplishments in the solar and geo-neutrinos detection. These performances make it the ideal tool to accomplish a state-of-the-art experiment able to test unambiguously the long-standing issue of the existence of a sterile neutrino, as suggested by the several anomalous results accumulated over the past two decades, i.e. the outputs of the LSND and Miniboone experiments, the results of the source calibration of the two Gallium solar neutrino experiments, and the recently hinted reactor anomaly. The SOX project will exploit two sources, based on Chromium and Cerium, respectively, which deployed under the experiment, in a location foreseen on purpose at the time of the construction of the detector, will emit two intense beams of neutrinos (Cr) and anti-neutrinos (Ce). Interacting in the active volume of the liquid scintillator, each beam would create an unmistakable spatial wave pattern in case of oscillation of the nu_e (or nu̅_e) into the sterile state: such a pattern would be the smoking gun proving the existence of the new sterile member of the neutrino family. Otherwise, its absence will allow setting a very stringent limit on its existence.

year	journal	country	edition	language
2014-09-30

10.1051/epjconf/201612101002 http://hdl.handle.net/11391/1407522