Speaker
Description
A Muon Collider is being proposed as a next-generation facility. This collider would have unique advantages, as clean events, similar to electron-positron colliders, are possible, and high collision energy, comparable to that of hadron colliders, could be reached due to negligible beam radiation losses. The beam-induced background, produced by muon decays in the beams and subsequent interactions, as well as the incoherent e+/e- pairs production, reaches the interaction region and, finally, the detector presents unique challenges for particle reconstruction. The first detector concept for detecting 10 TeV muon-muon collisions has been studied, taking into account the physics requirements and the effects of the beam-induced background. The presentation will cover the design of the tracking and calorimeter systems, as well as the configuration of the magnet and the proposed value of the magnetic field. The performance on the most important physics benchmarks will also be presented.
| Role of Submitter | I am the presenter |
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