Why is our world formed by matter and not anti-matter? How do fundamental particles really interact? Is the Standard Model the final theory?
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LHCb
IGFAE Experiments
Solving the mystery of the ultra-high energy cosmic rays, the most energetic particles observed in nature. What are the cosmic rays? Where do they come from? Where do they get their energy?
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Auger
IGFAE Experiments
Using an advanced underground detector in the Pyrenees to learn if the most elusive fundamental particles we know of, the neutrinos, are really their own antiparticle.
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Next
IGFAE Experiments
Understanding the strength and complexity of interactions in the nuclear medium.
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GANIL -
ACTAR TPC
IGFAE Experiments
Creating new technologies for medical-imaging radioisotope production based on laser-plasma acceleration.
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LaserPet
IGFAE Experiments
Relativistic ions to investigate fundamental properties of the force that holds protons and neutrons in nuclei. The ideal test bench to learn about reactions responsible of energy and heavy elements generation in Universe.
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FAIR R3B
IGFAE Experiments
Chalk and blackboard; pencil and paper; but also powerful computers to understand the mysteries of the Universe
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Theory
IGFAE Research