However, these measurements do strengthen previous observations and pave the way towards a future discovery. More precise measurements are needed to confirm these findings. After analysing nine years’ worth of data, the T2K experiment reached a level of statistical significance high enough to provide an indication that CP violation occurs in these fundamental particles. In this seminar we will illustrate the present and past contribution of the T2K experiment to the discoveries of the Neutrino Oscillation, the impact of new result and prospects (medium and long term) for the Neutrino Physics in Japan. If different from zero, it may help us understand the origin of the current prevalence of matter over antimatter in the Universe. This asymmetry is known as charge-conjugation and parity (CP) violation. In particular it was observed that the measured oscillation probability is not the same for both. The T2K Collaboration (Tokai to Kamioka) found a mismatch in the way neutrinos and antineutrinos oscillate. Nature has recently reported on its cover about the indication by the T2K collaboration of a difference between the fundamental behavior of neutrinos and of antineutrinos, their anti-matter counterparts. collegarsi tramite il client di Vibe ( *download), inserendo semplicemente il proprio nome e il Meeting ID: 4856329430 (opzione consigliata) Link: Or by using WebRTC in Chrome or Firefox : (*) Versioni richieste: Windows 7 or newer Mac OS 10.8.5 or higher Linux 3-4 years old, version 7 or higher Read More ».Per partecipare è possibile scegliere tra due modalità: Istruzioni per partecipare: La connessione ai seminari online dovrà essere effettuata tramite Vibe. An excess over known backgrounds is observed below 7 keV, rising towards lower energies and prominent between 2–3 keV. The excess is interpreted as due to the physics channels mentioned above, as well as due to a new source of background previously not considered, as the beta decay of tritium. With an exposure of 0.65 tonne-years and an unprecedentedly low background rate of 76 ± 2 events/(tonne x year x keV) between 1-30 keV, the data enables competitive searches for solar axions, an enhanced neutrino magnetic moment using solar neutrinos, and bosonic dark matter. We report results from searches for new physics with low-energy electronic recoil data recorded with the XENON1T detector.
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