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Exploring low-energy neutrino physics with the Coherent Neutrino Nucleus Interaction Experiment (CONNIE)
The Coherent Neutrino-Nucleus Interaction Experiment (CONNIE) uses low-noise fully depleted charge-coupled devices (CCDs) with the goal of measuring low-energy recoils from coherent elastic scattering (CE\(\nu\)NS) of reactor antineutrinos with silicon nuclei and testing nonstandard neutrino interac...
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| creator | Aguilar-Arevalo, Alexis Bertou, Xavier Bonifazi, Carla Cancelo, Gustavo Castañeda, Alejandro Brenda Cervantes Vergara Chavez, Claudio D'Olivo, Juan C dos Anjos, João C Estrada, Juan Fernandes Neto, Aldo R Guillermo Fernandez Moroni Foguel, Ana d, Richard Juan Gonzalez Cuevas Hernández, Pamela Hernandez, Susana Izraelevitch, Federico Kavner, Alexander R Kilminster, Ben Kuk, Kevin Lima, H P Makler, Martin Molina, Jorge Mota, Philipe Nasteva, Irina Paolini, Eduardo E Romero, Carlos Sarkis, Y Miguel Sofo Haro Souza, Iruatã M S Tiffenberg, Javier Wagner, Stefan Collaboration, CONNIE |
| description | The Coherent Neutrino-Nucleus Interaction Experiment (CONNIE) uses low-noise fully depleted charge-coupled devices (CCDs) with the goal of measuring low-energy recoils from coherent elastic scattering (CE\(\nu\)NS) of reactor antineutrinos with silicon nuclei and testing nonstandard neutrino interactions (NSI). We report here the first results of the detector array deployed in 2016, considering an active mass 47.6 g (8 CCDs), which is operating at a distance of 30 m from the core of the Angra 2 nuclear reactor, with a thermal power of 3.8 GW. A search for neutrino events is performed by comparing data collected with reactor on (2.1 kg-day) and reactor off (1.6 kg-day). The results show no excess in the reactor-on data, reaching the world record sensitivity down to recoil energies of about 1 keV (0.1 keV electron-equivalent). A 95% confidence level limit for new physics is established at an event rate of 40 times the one expected from the standard model at this energy scale. The results presented here provide a new window to low-energy neutrino physics, allowing one to explore for the first time the energies accessible through the low threshold of CCDs. They will lead to new constrains on NSI from the CE\(\nu\)NS of antineutrinos from nuclear reactors. |
| doi_str_mv | 10.48550/arxiv.1906.02200 |
| format | article |
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We report here the first results of the detector array deployed in 2016, considering an active mass 47.6 g (8 CCDs), which is operating at a distance of 30 m from the core of the Angra 2 nuclear reactor, with a thermal power of 3.8 GW. A search for neutrino events is performed by comparing data collected with reactor on (2.1 kg-day) and reactor off (1.6 kg-day). The results show no excess in the reactor-on data, reaching the world record sensitivity down to recoil energies of about 1 keV (0.1 keV electron-equivalent). A 95% confidence level limit for new physics is established at an event rate of 40 times the one expected from the standard model at this energy scale. The results presented here provide a new window to low-energy neutrino physics, allowing one to explore for the first time the energies accessible through the low threshold of CCDs. 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We report here the first results of the detector array deployed in 2016, considering an active mass 47.6 g (8 CCDs), which is operating at a distance of 30 m from the core of the Angra 2 nuclear reactor, with a thermal power of 3.8 GW. A search for neutrino events is performed by comparing data collected with reactor on (2.1 kg-day) and reactor off (1.6 kg-day). The results show no excess in the reactor-on data, reaching the world record sensitivity down to recoil energies of about 1 keV (0.1 keV electron-equivalent). A 95% confidence level limit for new physics is established at an event rate of 40 times the one expected from the standard model at this energy scale. The results presented here provide a new window to low-energy neutrino physics, allowing one to explore for the first time the energies accessible through the low threshold of CCDs. 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We report here the first results of the detector array deployed in 2016, considering an active mass 47.6 g (8 CCDs), which is operating at a distance of 30 m from the core of the Angra 2 nuclear reactor, with a thermal power of 3.8 GW. A search for neutrino events is performed by comparing data collected with reactor on (2.1 kg-day) and reactor off (1.6 kg-day). The results show no excess in the reactor-on data, reaching the world record sensitivity down to recoil energies of about 1 keV (0.1 keV electron-equivalent). A 95% confidence level limit for new physics is established at an event rate of 40 times the one expected from the standard model at this energy scale. The results presented here provide a new window to low-energy neutrino physics, allowing one to explore for the first time the energies accessible through the low threshold of CCDs. They will lead to new constrains on NSI from the CE\(\nu\)NS of antineutrinos from nuclear reactors.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1906.02200</doi><oa>free_for_read</oa></addata></record> |
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| issn | 2331-8422 |
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| source | Publicly Available Content Database |
| subjects | Antineutrinos Charge coupled devices Coherent scattering Confidence intervals Elastic scattering Energy measurement Neutrinos Nuclear energy Nuclear reactors Physics Recoil Standard model (particle physics) |
| title | Exploring low-energy neutrino physics with the Coherent Neutrino Nucleus Interaction Experiment (CONNIE) |
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