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Электронный каталог: Cadeddu, M. - SATURNE: Current Status and Physics Potential
Cadeddu, M. - SATURNE: Current Status and Physics Potential
Статья
Автор: Cadeddu, M.
International Journal of Modern Physics E [Electronic resource]: SATURNE: Current Status and Physics Potential
б.г.
ISBN отсутствует
Автор: Cadeddu, M.
International Journal of Modern Physics E [Electronic resource]: SATURNE: Current Status and Physics Potential
б.г.
ISBN отсутствует
На полку
Статья
Cadeddu, M.
SATURNE: Current Status and Physics Potential / M.Cadeddu, V.N.Trofimov, [a.o.] // International Journal of Modern Physics E [Electronic resource]. – 2024. – Vol. 33, No. 11 : Nucleus-2024: Fundamental Problems and Applications. Part 1 : Selected Papers of LXXIV Int. Conference, Dubna, Russia. – P. 2441011. – URL: https://doi.org/10.1142/S0218301324410118. – Bibliogr.: 17.
The SArov Tritium Neutrino Experiment (SATURNE), will study neutrino–atom collisions at unprecedentedly low energies for neutrino scattering experiments. A high-intensity tritium source of electron antineutrinos will be employed, with a total tritium mass of at least 1 kg (about 10 MCi) and possibly up to 4kg (about 40 MCi). The goal of SATURNE is to provide the first experimental evidence of coherent elastic neutrino-atom scattering and to search for the neutrino magnetic moment. It is expected that the detection and measurement of the elastic neutrino–atom interaction channel will be achieved using a 1–m*3 liquid He-4 detector in a superfluid state. With five-year data from this detector, one will be able to probe the neutrino magnetic moment at a level of μ&sub(ν)∼10&sup(−13)μB , which is an order of magnitude better than the world-leading upper limits. SATURNE will also study the ionization channel of neutrino-atom scattering. To this end, a cryogenic 4-kg Si crystal detector and a low-temperature 14-kg SrI&sub(2)(Eu) scintillation detector are being developed. Both detectors will have record low energy thresholds for their respective detector types. They are expected to achieve a sensitivity to the electron-antineutrino μ&sub(ν) value of the order of ∼10&sup(-12)μ&sub(B) already after one year of taking data.
ОИЯИ = ОИЯИ (JINR)2024
Спец.(статьи,препринты) = С 344.1х - Методы регистрации нейтрино
Спец.(статьи,препринты) = С 346.1в - Взаимодействие нейтрино с нуклонами и другими частицами
Cadeddu, M.
SATURNE: Current Status and Physics Potential / M.Cadeddu, V.N.Trofimov, [a.o.] // International Journal of Modern Physics E [Electronic resource]. – 2024. – Vol. 33, No. 11 : Nucleus-2024: Fundamental Problems and Applications. Part 1 : Selected Papers of LXXIV Int. Conference, Dubna, Russia. – P. 2441011. – URL: https://doi.org/10.1142/S0218301324410118. – Bibliogr.: 17.
The SArov Tritium Neutrino Experiment (SATURNE), will study neutrino–atom collisions at unprecedentedly low energies for neutrino scattering experiments. A high-intensity tritium source of electron antineutrinos will be employed, with a total tritium mass of at least 1 kg (about 10 MCi) and possibly up to 4kg (about 40 MCi). The goal of SATURNE is to provide the first experimental evidence of coherent elastic neutrino-atom scattering and to search for the neutrino magnetic moment. It is expected that the detection and measurement of the elastic neutrino–atom interaction channel will be achieved using a 1–m*3 liquid He-4 detector in a superfluid state. With five-year data from this detector, one will be able to probe the neutrino magnetic moment at a level of μ&sub(ν)∼10&sup(−13)μB , which is an order of magnitude better than the world-leading upper limits. SATURNE will also study the ionization channel of neutrino-atom scattering. To this end, a cryogenic 4-kg Si crystal detector and a low-temperature 14-kg SrI&sub(2)(Eu) scintillation detector are being developed. Both detectors will have record low energy thresholds for their respective detector types. They are expected to achieve a sensitivity to the electron-antineutrino μ&sub(ν) value of the order of ∼10&sup(-12)μ&sub(B) already after one year of taking data.
ОИЯИ = ОИЯИ (JINR)2024
Спец.(статьи,препринты) = С 344.1х - Методы регистрации нейтрино
Спец.(статьи,препринты) = С 346.1в - Взаимодействие нейтрино с нуклонами и другими частицами
