Conveners
Oscillations: (Room 3)
- Marco Grassi (University of Padova - INFN)
- Mauro Mezzetto (PD)
Oscillations: (Room 2)
- Chiara Sirignano (PD)
- Mathieu Lamoureux (INFN Padova)
Oscillations: (Room 1)
- Marco Grassi (University of Padova - INFN)
- Chiara Sirignano (PD)
The Super-Kamiokande (SK) experiment is a 50 kton water-Cherenkov detector located in Kamioka, Japan. With its 40% photocoverage, it has been collecting data since 1996 and is responsible for the very first observation of neutrino oscillations through the analysis of atmospheric neutrinos. Nowadays, the atmospheric neutrinos measurements of the SK experiment keeps providing some of the most...
The Jiangmen Undergrond Neutrino Observatory (JUNO) is an upcomming multipurpose experiment focused on resolving the neu- trino mass ordering, an open question of modern neutrino physics. With its 20-kton liquid scintillator target instrumented with 18000 20” PMTs and 25600 3” PMTs the JUNO detector will measure neu- trino spectrum from nuclear reactors at about 53 km distance with 3% energy...
Hyper-Kamiokande is a future experiment in Japan to measure neutrino oscillations with beam and atmospheric neutrinos, to study astrophysical neutrinos, and to search for proton decay. It uses the well-established water Cherenkov detector technique, with improved photosensors and increased fiducial volume, relative to the current generation’s Super-Kamiokande detector. Combined with the...
The T2K experiment is moving towards the T2K-II phase. The plans for T2K-II foresee an increase of the beam power and an upgrade of its near detector ND280 in 2022. The aim is to increase the statistics while reducing at the same time the systematic error from 6% to 4%. This will enable T2K to significantly improve the recently published first measurement of $\delta_{CP}$ which indicates the...
NOvA is a long-baseline neutrino experiment that measures oscillation using the muon neutrinos and antineutrinos delivered by the NuMI beam at Fermilab. Neutrino oscillation is detected by observing appearance of electron (anti)neutrinos and disappearance of muon (anti)neutrinos at the Far Detector located near Ash River, MN, as compared to the Near Detector at Fermilab.
In this talk, I...
T2K (Tokai to Kamioka) is a Japan based long-baseline neutrino oscillation experiment designed to measure (anti-)neutrino flavor oscillations. A neutrino beam peaked around 0.6 GeV is produced in Tokai and directed toward the water Cherenkov detector Super-Kamiokande, which is located 295 km away. A complex of near detectors is located at 280 m and is used to constrain the flux and...
T2K (Tokai to Kamioka) is a Japan-based long-baseline neutrino oscillation experiment designed to measure (anti-)neutrino flavor oscillations. After the measurement of a non-zero value of the mixing angle $\theta_{13}$, T2K has started a campaign to measure the phase $\delta_{CP}$, an unknown element of the Pontecorvo-Maki-Nakagata-Sakata matrix, that can provide a test of the violation or...
We report recent results from the Reactor Experiment for Neutrino Oscillation (RENO). The RENO experiment consists of near and far detectors located at 294 and 1383 m, respectively, from the center of the six reactor cores of the Hanbit Nuclear Power Plant, Yonggwang, Korea. each reactor with maximum thermal output of 2.8 GWth. The reactor antineutrinos are detected through inverse beta decay...
Utilizing six powerful nuclear reactors as antineutrino sources and eight identically designed
underground detectors for a near-far relative measurement, the Daya Bay Reactor Neutrino
Experiment has achieved unprecedented precision in measuring the neutrino mixing angle 𝜃13 and
the neutrino mass squared difference |Δm2 |. With the largest sample of reactor antineutrino ee
interactions ever...
The Double Chooz (DC) multi-detector experiment is one of the reactor experiment measuring the ultimate θ13 mixing parameter exploiting one of the most powerful Nuclear Reactor in Europe, the EDF Chooz NPP located within the the LNCA underground laboratory facility in France. Due to the delay of the near detector and the shallow overburden, DC was forced to develop several novel techniques for...
In our arXiv:2008.11280 (under publication), we demonstrate that the combined sensitivity of JUNO with NOvA and T2K experiments has the potential to become the first fully resolved (≥5σ) measurement of neutrino Mass Ordering (MO) tightly linked to the JUNO schedule. In the absence of any concrete MO theoretical prediction and given its intrinsic binary MO outcome, we thus highlight the...
