Summary
This proposal is a part of ongoing global efforts to understand the most fundamental elements of matter and their interactions. We aim to investigate neutrino interactions using the existing experimental facility in Japan, the Super-Kamiokande (SK) detector located in the Kamioka Observatory (Gifu Prefecture) and owned by the Partner of this
Project: the Institute for Cosmic Ray Research of the University of Tokyo.
Furthermore, we propose a joint work on the design and construction of new neutrino detectors planned at the
Kamioka Observatory. They are Gadzooks! (and its R&D program EGADS), that is an extension to SK, and Hyper-Kamiokande (HK), its next generation detector. These Projects are currently ongoing and in preparation phase, respectively.
We address several fundamental problems in physics. We do it at different stages: by analyzing the data from SK,
by building and commissioning Gadzooks!, and by designing HK:
• Neutrino Oscillations – neutrino mass hierarchy (SK, Gadzooks!, HK), leptonic Charge-Parity violation (HK),
precise measurement of mixing parameters (SK, Gadzooks!, HK),
• Dark Matter – search for neutrinos induced by dark matter annihilation/decay in the cosmic space (SK, HK),
• Nearby Galactic Supernova Physics – measurement of neutrinos emitted in the burst (SK, Gadzooks!, HK),
• Diffuse Supernova Neutrino Background – discovery (Gadzooks!) and energy spectrum measurement (HK),
• Grand Unification – search for proton decay (SK, Gadzooks!, HK).
Seconded researchers will work in Japan on those investigations. The collaborative work with the leaders of the field,
the Japanese Groups and Research Facilities, should assure the researches and the Participants Groups the gain of
an invaluable experience from these studies ,covering neutrino physics, cosmology, astrophysics, technical design, construction and operation of water Cherenkov detectors, data analysis techniques, hardware and software development
for the new generation detectors.
Project: the Institute for Cosmic Ray Research of the University of Tokyo.
Furthermore, we propose a joint work on the design and construction of new neutrino detectors planned at the
Kamioka Observatory. They are Gadzooks! (and its R&D program EGADS), that is an extension to SK, and Hyper-Kamiokande (HK), its next generation detector. These Projects are currently ongoing and in preparation phase, respectively.
We address several fundamental problems in physics. We do it at different stages: by analyzing the data from SK,
by building and commissioning Gadzooks!, and by designing HK:
• Neutrino Oscillations – neutrino mass hierarchy (SK, Gadzooks!, HK), leptonic Charge-Parity violation (HK),
precise measurement of mixing parameters (SK, Gadzooks!, HK),
• Dark Matter – search for neutrinos induced by dark matter annihilation/decay in the cosmic space (SK, HK),
• Nearby Galactic Supernova Physics – measurement of neutrinos emitted in the burst (SK, Gadzooks!, HK),
• Diffuse Supernova Neutrino Background – discovery (Gadzooks!) and energy spectrum measurement (HK),
• Grand Unification – search for proton decay (SK, Gadzooks!, HK).
Seconded researchers will work in Japan on those investigations. The collaborative work with the leaders of the field,
the Japanese Groups and Research Facilities, should assure the researches and the Participants Groups the gain of
an invaluable experience from these studies ,covering neutrino physics, cosmology, astrophysics, technical design, construction and operation of water Cherenkov detectors, data analysis techniques, hardware and software development
for the new generation detectors.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/641540 |
| Start date: | 01-12-2014 |
| End date: | 30-11-2018 |
| Total budget - Public funding: | 310 500,00 Euro - 310 500,00 Euro |
Cordis data
Original description
This proposal is a part of ongoing global efforts to understand the most fundamental elements of matter and their interactions. We aim to investigate neutrino interactions using the existing experimental facility in Japan, the Super-Kamiokande (SK) detector located in the Kamioka Observatory (Gifu Prefecture) and owned by the Partner of thisProject: the Institute for Cosmic Ray Research of the University of Tokyo.
Furthermore, we propose a joint work on the design and construction of new neutrino detectors planned at the
Kamioka Observatory. They are Gadzooks! (and its R&D program EGADS), that is an extension to SK, and Hyper-Kamiokande (HK), its next generation detector. These Projects are currently ongoing and in preparation phase, respectively.
We address several fundamental problems in physics. We do it at different stages: by analyzing the data from SK,
by building and commissioning Gadzooks!, and by designing HK:
• Neutrino Oscillations – neutrino mass hierarchy (SK, Gadzooks!, HK), leptonic Charge-Parity violation (HK),
precise measurement of mixing parameters (SK, Gadzooks!, HK),
• Dark Matter – search for neutrinos induced by dark matter annihilation/decay in the cosmic space (SK, HK),
• Nearby Galactic Supernova Physics – measurement of neutrinos emitted in the burst (SK, Gadzooks!, HK),
• Diffuse Supernova Neutrino Background – discovery (Gadzooks!) and energy spectrum measurement (HK),
• Grand Unification – search for proton decay (SK, Gadzooks!, HK).
Seconded researchers will work in Japan on those investigations. The collaborative work with the leaders of the field,
the Japanese Groups and Research Facilities, should assure the researches and the Participants Groups the gain of
an invaluable experience from these studies ,covering neutrino physics, cosmology, astrophysics, technical design, construction and operation of water Cherenkov detectors, data analysis techniques, hardware and software development
for the new generation detectors.
Status
CLOSEDCall topic
MSCA-RISE-2014Update Date
28-04-2024
Images
No images available.
Geographical location(s)
