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Uranium 235 plus neutrino2/21/2024 ![]() The project profited from the experience collected over several generations of reactor neutrino experiments. A detector consisting of six identical elements was placed just 10 meters from the reactor core. To unambiguously test this hypothesis of sterile neutrinos and determine their properties, the STEREO experiment was designed and started operation in 2017 at the high-flux nuclear research reactor at the ILL Grenoble. This particle could also possibly explain physical phenomena that are still not fully understood, such as dark matter. not interacting via the weak interaction. This triggered the hypothesis of the existence of a supplementary neutrino state that would be sterile i.e. In 2011, increased precision led to an anomaly between the observed and predicted antineutrino flux emitted by nuclear reactors. These so-called neutrino oscillations were established about two decades ago. These neutrinos can change their identity between these different states due to their very small, but non-zero mass. Today three different types of neutrinos are known. A direct experimental detection didn't take place until 1956. Therefore, they are extremely hard to detect. Neutrinos are very light, electrically neutral and interact only via the electroweak force. ![]() The model includes neutrinos, particles invented 1930 by Wolfgang Pauli in order to comply with the universal energy conservation laws. In modern particle physics all known elementary particles and their interactions are described in the so-called Standard Model of Particle Physics.
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