Summary
In Particle Physics the research on neutrinos is continuously producing new results and further discoveries might just be around the corner. They could provide answers to crucial questions on how matter was created in the Universe or reveal the existence of new types of fundamental interactions between elementary particles. Possibly even more intriguing is the search for Dark Matter, an unknown form of matter that, according to astrophysical observations, outweighs the ordinary matter in our Universe by more than 5 times. Dark Matter particles have been searched for since 30 years, and invariably eluded discovery.
DANAE intends to enable unprecedented sensitivities in the study low energy neutrinos and in the search for Dark Matter, by measuring the tiny nuclear recoils that these particles induce in their passage through matter. The goal is to create a pilot experiment by introducing for the first time monolithic, and at the same time highly segmented, arrays of thousands multiplexed superconducting detectors. If successful, precision measurements of a recently discovered process, the coherent and elastic neutrino scattering off nuclei, could be made. In the Dark Matter field new hypothesized particles could be sensed, lighter than those searched and never found so far.
DANAE intends to enable unprecedented sensitivities in the study low energy neutrinos and in the search for Dark Matter, by measuring the tiny nuclear recoils that these particles induce in their passage through matter. The goal is to create a pilot experiment by introducing for the first time monolithic, and at the same time highly segmented, arrays of thousands multiplexed superconducting detectors. If successful, precision measurements of a recently discovered process, the coherent and elastic neutrino scattering off nuclei, could be made. In the Dark Matter field new hypothesized particles could be sensed, lighter than those searched and never found so far.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101087663 |
| Start date: | 01-10-2023 |
| End date: | 30-09-2028 |
| Total budget - Public funding: | 2 587 500,00 Euro - 2 587 500,00 Euro |
Cordis data
Original description
In Particle Physics the research on neutrinos is continuously producing new results and further discoveries might just be around the corner. They could provide answers to crucial questions on how matter was created in the Universe or reveal the existence of new types of fundamental interactions between elementary particles. Possibly even more intriguing is the search for Dark Matter, an unknown form of matter that, according to astrophysical observations, outweighs the ordinary matter in our Universe by more than 5 times. Dark Matter particles have been searched for since 30 years, and invariably eluded discovery.DANAE intends to enable unprecedented sensitivities in the study low energy neutrinos and in the search for Dark Matter, by measuring the tiny nuclear recoils that these particles induce in their passage through matter. The goal is to create a pilot experiment by introducing for the first time monolithic, and at the same time highly segmented, arrays of thousands multiplexed superconducting detectors. If successful, precision measurements of a recently discovered process, the coherent and elastic neutrino scattering off nuclei, could be made. In the Dark Matter field new hypothesized particles could be sensed, lighter than those searched and never found so far.
Status
SIGNEDCall topic
ERC-2022-COGUpdate Date
12-03-2024
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