Summary
"The Standard Model of Particle Physics (SM) describes the fundamental particles and interactions of ordinary matter. Despite the SM's success in predicting experimental results, it fails to account for the large abundance of dark matter in the Universe.
Dark Matter (DM) particles could be created from collisions of SM particles, such as in the Large Hadron Collider, but storage and computing limitations mean that rare processes involving DM may be missed by current data-taking methods.
In REALDARK, I will consolidate my leadership in DM searches with innovative data-taking techniques in order to solve these problem for the ATLAS experiment. The technical innovations from this proposal will be widely disseminated, paving the way to advancements for future experiments.
Under my leadership, the REALDARK team will break the traditional paradigm of recording detector data and then analyzing it in separate steps, by deploying data processing in real-time so that far more collision data can be searched for rare processes.
We will enable new types of datasets from the upcoming LHC data-taking period and search them for new phenomena, motivated by theories of weakly interacting massive DM particle candidates and by ""dark"" sectors inaccessible to ordinary particles.
The proposed searches will yield either a discovery of dark matter candidates, to be studied in connection with astrophysical observations, or world-leading constraints on the particle nature of dark matter, focusing theoretical efforts and search targets for future experiments."
Dark Matter (DM) particles could be created from collisions of SM particles, such as in the Large Hadron Collider, but storage and computing limitations mean that rare processes involving DM may be missed by current data-taking methods.
In REALDARK, I will consolidate my leadership in DM searches with innovative data-taking techniques in order to solve these problem for the ATLAS experiment. The technical innovations from this proposal will be widely disseminated, paving the way to advancements for future experiments.
Under my leadership, the REALDARK team will break the traditional paradigm of recording detector data and then analyzing it in separate steps, by deploying data processing in real-time so that far more collision data can be searched for rare processes.
We will enable new types of datasets from the upcoming LHC data-taking period and search them for new phenomena, motivated by theories of weakly interacting massive DM particle candidates and by ""dark"" sectors inaccessible to ordinary particles.
The proposed searches will yield either a discovery of dark matter candidates, to be studied in connection with astrophysical observations, or world-leading constraints on the particle nature of dark matter, focusing theoretical efforts and search targets for future experiments."
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101002463 |
Start date: | 01-11-2021 |
End date: | 31-10-2026 |
Total budget - Public funding: | 1 999 777,00 Euro - 1 999 777,00 Euro |
Cordis data
Original description
"The Standard Model of Particle Physics (SM) describes the fundamental particles and interactions of ordinary matter. Despite the SM's success in predicting experimental results, it fails to account for the large abundance of dark matter in the Universe.Dark Matter (DM) particles could be created from collisions of SM particles, such as in the Large Hadron Collider, but storage and computing limitations mean that rare processes involving DM may be missed by current data-taking methods.
In REALDARK, I will consolidate my leadership in DM searches with innovative data-taking techniques in order to solve these problem for the ATLAS experiment. The technical innovations from this proposal will be widely disseminated, paving the way to advancements for future experiments.
Under my leadership, the REALDARK team will break the traditional paradigm of recording detector data and then analyzing it in separate steps, by deploying data processing in real-time so that far more collision data can be searched for rare processes.
We will enable new types of datasets from the upcoming LHC data-taking period and search them for new phenomena, motivated by theories of weakly interacting massive DM particle candidates and by ""dark"" sectors inaccessible to ordinary particles.
The proposed searches will yield either a discovery of dark matter candidates, to be studied in connection with astrophysical observations, or world-leading constraints on the particle nature of dark matter, focusing theoretical efforts and search targets for future experiments."
Status
SIGNEDCall topic
ERC-2020-COGUpdate Date
27-04-2024
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