Search for coherent elastic neutrino-nucleus scattering at a nuclear reactor with CONNIE 2019 data
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Published:2022-05-03
Issue:5
Volume:2022
Page:
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ISSN:1029-8479
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Container-title:Journal of High Energy Physics
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language:en
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Short-container-title:J. High Energ. Phys.
Author:
, Aguilar-Arevalo Alexis, Bernal Javier, Bertou Xavier, Bonifazi Carla, Cancelo Gustavo, de Carvalho Victor G. P. B., Cervantes-Vergara Brenda A., Chavez Claudio, Corrêa Gustavo Coelho, D’Olivo Juan C., dos Anjos João C., Estrada Juan, Fernandes Neto Aldo R., Fernandez Moroni Guillermo, Foguel Ana, Ford Richard, Gasanego Barbuscio Julián, Gonzalez Cuevas Juan, Hernandez Susana, Izraelevitch Federico, Kilminster Ben, Kuk Kevin, Lima Herman P., Makler Martin, Martinez Montero Mauricio, Mendes Larissa Helena, Molina Jorge, Mota Philipe, Nasteva IrinaORCID, Paolini Eduardo, Rodrigues Dario, Sarkis Y., Sofo Haro Miguel, Stalder Diego, Tiffenberg Javier
Abstract
Abstract
The Coherent Neutrino-Nucleus Interaction Experiment (CONNIE) is taking data at the Angra 2 nuclear reactor with the aim of detecting the coherent elastic scattering of reactor antineutrinos with silicon nuclei using charge-coupled devices (CCDs). In 2019 the experiment operated with a hardware binning applied to the readout stage, leading to lower levels of readout noise and improving the detection threshold down to 50 eV. The results of the analysis of 2019 data are reported here, corresponding to the detector array of 8 CCDs with a fiducial mass of 36.2 g and a total exposure of 2.2 kg-days. The difference between the reactor-on and reactor-off spectra shows no excess at low energies and yields upper limits at 95% confidence level for the neutrino interaction rates. In the lowest-energy range, 50 − 180 eV, the expected limit stands at 34 (39) times the standard model prediction, while the observed limit is 66 (75) times the standard model prediction with Sarkis (Chavarria) quenching factors.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Reference36 articles.
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