Summary
After almost two decades, the Standard Model of cosmology remains deeply unsatisfactory and incomplete from a theoretical viewpoint. Cosmic Microwave Background (CMB) observations provide a unique window into the early universe and are key to answering our most important and unresolved questions.
The CMB has been mapped recently with unprecedented precision by the Planck satellite. However, its full potential in testing fundamental physics lies in measurements of its polarization at high resolution and sensitivity. This will be unlocked for the first time with current and future ground-based experiments. The Atacama Cosmology Telescope (ACT) is one of the leading experiments currently operating and from 2021 the new Simons Observatory (SO) will supersede all existing and funded instruments.
CMBforward is a programme capitalizing on my expertise built with Planck and ACT, to deliver new CMB cosmology from ACT (during 2020-22) and SO (from 2022) that will advance the state of the art. I will lead work that will take great strides in constraining the properties of neutrinos, the nature of the primordial fluctuations seeding the cosmic structures, the physics of dark matter and dark energy, and the time of cosmic dawn. Recognizing the need and importance of a new dedicated CMB satellite, I will also lead, working closely with other European partners and space agencies, the design of the next CMB mission with European contribution.
This proposal presents a workplan for the development of new, more precise, and robust data analysis techniques, and requests support for the research time and resources needed for analysis and scientific exploitation of the high volume of incoming data. Building on my expertise in characterizing and interpreting CMB data, and with leadership established and secured in key current and future experiments, this project is unique in bringing together past, present and future CMB studies, and will be at the forefront of key frontiers in cosmology.
The CMB has been mapped recently with unprecedented precision by the Planck satellite. However, its full potential in testing fundamental physics lies in measurements of its polarization at high resolution and sensitivity. This will be unlocked for the first time with current and future ground-based experiments. The Atacama Cosmology Telescope (ACT) is one of the leading experiments currently operating and from 2021 the new Simons Observatory (SO) will supersede all existing and funded instruments.
CMBforward is a programme capitalizing on my expertise built with Planck and ACT, to deliver new CMB cosmology from ACT (during 2020-22) and SO (from 2022) that will advance the state of the art. I will lead work that will take great strides in constraining the properties of neutrinos, the nature of the primordial fluctuations seeding the cosmic structures, the physics of dark matter and dark energy, and the time of cosmic dawn. Recognizing the need and importance of a new dedicated CMB satellite, I will also lead, working closely with other European partners and space agencies, the design of the next CMB mission with European contribution.
This proposal presents a workplan for the development of new, more precise, and robust data analysis techniques, and requests support for the research time and resources needed for analysis and scientific exploitation of the high volume of incoming data. Building on my expertise in characterizing and interpreting CMB data, and with leadership established and secured in key current and future experiments, this project is unique in bringing together past, present and future CMB studies, and will be at the forefront of key frontiers in cosmology.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/849169 |
Start date: | 01-04-2020 |
End date: | 31-03-2026 |
Total budget - Public funding: | 1 915 814,00 Euro - 1 915 814,00 Euro |
Cordis data
Original description
After almost two decades, the Standard Model of cosmology remains deeply unsatisfactory and incomplete from a theoretical viewpoint. Cosmic Microwave Background (CMB) observations provide a unique window into the early universe and are key to answering our most important and unresolved questions.The CMB has been mapped recently with unprecedented precision by the Planck satellite. However, its full potential in testing fundamental physics lies in measurements of its polarization at high resolution and sensitivity. This will be unlocked for the first time with current and future ground-based experiments. The Atacama Cosmology Telescope (ACT) is one of the leading experiments currently operating and from 2021 the new Simons Observatory (SO) will supersede all existing and funded instruments.
CMBforward is a programme capitalizing on my expertise built with Planck and ACT, to deliver new CMB cosmology from ACT (during 2020-22) and SO (from 2022) that will advance the state of the art. I will lead work that will take great strides in constraining the properties of neutrinos, the nature of the primordial fluctuations seeding the cosmic structures, the physics of dark matter and dark energy, and the time of cosmic dawn. Recognizing the need and importance of a new dedicated CMB satellite, I will also lead, working closely with other European partners and space agencies, the design of the next CMB mission with European contribution.
This proposal presents a workplan for the development of new, more precise, and robust data analysis techniques, and requests support for the research time and resources needed for analysis and scientific exploitation of the high volume of incoming data. Building on my expertise in characterizing and interpreting CMB data, and with leadership established and secured in key current and future experiments, this project is unique in bringing together past, present and future CMB studies, and will be at the forefront of key frontiers in cosmology.
Status
SIGNEDCall topic
ERC-2019-STGUpdate Date
27-04-2024
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