Hyper-Kamiokande (Hyper-K), a third-generation Water Cherenkov detector and the latest in an illustrious series of world-leading experiments located in Japan, is being developed by an international collaboration.
4 August 2017
It will take advantage of its predecessors: the double Nobel prize winning experiment (Super-)Kamiokande and the extremely succesful K2K (1999-2004) and T2K (2010-) long baseline neutrino experiments. T2K just rejected the hypothesis that neutrinos and antineutrinos oscillate with the same probability at 95%.
The Hyper-Kamiokande detector is a three hundred thousand ton instrumented water tank situated underground in the western mountains of Japan. It will take data for several decades after completion of the first tank in the mid-2020’s to address some of the biggest unsolved questions in physics, that are at the root of understanding the origins of the Universe: Do protons decay? Do neutrinos violate the symmetry between matter and antimatter? Hyper-K will also observe the neutrinos from the Sun and detect and analyse the neutrinos emitted in the spectacular explosions of stars (supernovae) in the cosmos.
The first Hyper-Kamiokande detector will be situated in Kamioka, about 295 km away from the J-PARC proton accelerator research complex in Tokai, Japan. A second detector is planned to be constructed after the installation of the first one. Studies on the design and location of the second tank are underway.
Based on a very competitive selection process on all sciences, the Hyper-Kamiokande project has been chosen for inclusion in the Ministry of Education, Culture, Sports, Science and Technology (MEXT) Large Project Roadmap. This implies that Hyper-K will then be presented by MEXT to the government to be included in the budget.
A total of 7 projects from the general sciences are in the Roadmap, they are Genome, HL-LHC, Hyper-K, SPICA, LiteBIRD, attosecond pulse laser and the photon factory.
The roadmap, which is in Japanese, can be found in:
Hyper-K is third in the table on page 19. The table order does not represent importance or rank.
Based on the scientific evaluation, urgency, strategy, and support of the society, Hyper-K has received the highest grades with (a, a).
This achievement marks an important milestone in the roadmap for the Hyper-Kamiokande experiment.
Media Contacts for Further Inquiries:
Prof. Francesca Di Lodovico, co-Project Leader, Queen Mary University of London (UK) email@example.com