The origin of (dark) matter. This project aims to discover the origin and nature of dark matter and why the Universe contains more matter than antimatter – two important unresolved problems in particle physics and cosmology. These questions cannot be resolved within the framework of the particle physics Standard Model, and thus provide concrete evidence that new elementary particle physics remains to be uncovered. This project aims to explore the origin of dark matter, new mechanisms for creatin ....The origin of (dark) matter. This project aims to discover the origin and nature of dark matter and why the Universe contains more matter than antimatter – two important unresolved problems in particle physics and cosmology. These questions cannot be resolved within the framework of the particle physics Standard Model, and thus provide concrete evidence that new elementary particle physics remains to be uncovered. This project aims to explore the origin of dark matter, new mechanisms for creating a matter-antimatter asymmetry, and the possibility that dark and ordinary matter share a common origin. This project could address humanity's deep need to understand the nature of the universe and our origins.Read moreRead less
Frontiers in particle and astroparticle physics. This project will address fundamental questions about our universe, drawing on new experimental data at the cosmic and energy frontiers: what is the cosmological dark matter; why does the universe contain more matter than antimatter; what new surprises may be revealed? The answers will provide a guide to develop fundamental theories of nature.