PhysicsIntro: Difference between revisions
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::learn about the the processes that can mimic our signal | ::learn about the the processes that can mimic our signal | ||
[[SimulationPhysIntro|Simulation]] | |||
::what do these physics processes, both signal and backgrounds, look like in our detector? | |||
[[ReconstructionPhysIntro|Reconstruction]] | |||
::how do we turn the detector signals into energies and paths of particles to reconstruct what happened in the events? | |||
[[CollaborationIntro|Collaboration]] | |||
::who are the Mu2e collaborators and how do we organize ourselves? | |||
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Revision as of 17:13, 2 March 2018
Particle physicists study the fundamental building blocks of nature and their interactions. Our current understanding, encompassed by the standard model, leaves us with many mysteries. For example, we cannot account for the prevalence of matter over anti-matter in the universe and we do not know the nature of the observed dark matter in the universe. The Mu2e Experiment will test predictions from a wide variety of theoretical models that are motivated by solving these, and other, mysteries. Click through the sections below to learn more about the physics of, and techniques used, by Mu2e.
- what does the experiment measure?
- learn about the the processes that can mimic our signal
- what do these physics processes, both signal and backgrounds, look like in our detector?
- how do we turn the detector signals into energies and paths of particles to reconstruct what happened in the events?
- who are the Mu2e collaborators and how do we organize ourselves?