Periodic Reporting for period 1 - JENNIFER2 (Japan and Europe Network for Neutrino and Intensity Frontier Experimental Research 2)
Período documentado: 2019-04-01 hasta 2023-05-31
The Standard Model of elementary particles has been very successful in explaining a wide variety of existing experimental data, but it does not answer several fundamental questions, such as the origin of the dark matter (which we know from the Cosmological Model it is responsible for 90% of the universe mass), the mater-antimatter asymmetry (which can be explained only with a sizeable violation of the so called CP symmetry) and the observed pattern of fermions mass spectrum.
For all these reasons physicists are looking for the signals of new particles and interactions which can either be directly produced at the energy frontier of the available particle acceleration technology, either appear as tiny deviations from SM expectations in rare processes at lower energy. JENNIFER2 project is dedicated to this second approach, with two different techniques: the so called “intensity frontier”, where very intense particle accelerators produce an enormous number of events which are recorded and analysed with precision detectors, and the neutrino physics, where large volume underground detectors reconstruct the rare interactions of neutrinos with matter, both accelerator produced and cosmic ones. The first technique is represented by the Belle II experiment working at the SuperKEKB accelerator, while the second one is the T2K experiment and its future development in the HyperK project.
JENNIFER2 includes both detector and technology developments for the upgrade and improvement of the experiments in the above stated fields, both the challenging data analyses that will produce stringent limits on new phenomena or evidences for them. Moreover JENNIFER2 puts together the scientist communities working at the intensity frontier and at the neutrino underground experiments, and aims to produce important synergies in several technologic issues.
Finally, JENNIFER2 includes a number of outreach activities towards different societal targets, to promote both the general knowledge of the fundamental physics and its implications, and the promotion of the scientific collaboration between Europe and Japan.
The upgrade of the T2K near detector has progressed very much, a first prototype of Time Projection Chamber has been tested with cosmic rays, while construction of the FGD scintillator target has started.
Exceptional results have been obtained from the T2K former data analysis, drawing to the first constraint on matter-antimatter CP-violating phase in neutrino oscillations.
An impressive R&D work has been performed towards the construction of the HyperK detector, involving the design of the water system for the Gd-doped water Cerenkov detector, the calibration system, the outer detector design and test, the readout electronics and the trigger system.
New developments in photo-detection have been started, regarding the usage of silicon photomultipliers in high radiation conditions, the designe and test of multi-PMTs and the development of organic photo-detectors.
Important synergies have started in computing between the Belle II and the HyperK data model and a common demonstrator will be realized. Collaborations have started in data taking techniques, statistical analysis and phenomenology.
Masterclasses on Belle II physics have been organized and then cancelled due to the Covid-19 outbreak, as well as a Summer School at KEK laboratory for 15 european students. We hope to be able to reciver these activities soon.
Societal impact will be produced first of all through the dissemination and communication of the project activities, and through collaboration with industrial partners for the production of the needed technologies. Moreover the fostering of the scientific collaboration with Japan will be an added value for European society and innovation.