Speaker
Description
A 10 TeV muon collider offers a combination of unprecedented energy collisions in a clean leptonic environment, providing both precision measurements and the highest energy reach. This endeavor will require novel detector technologies, designs, and software. Previous studies have analyzed 1.5 and 3 TeV muon collider detector designs adapted from CERN’s Compact Linear Collider (CLIC) detector with performances comparable to the LHC experiment. The MAIA detector concept is specifically optimized for 10 TeV to provide precision physics at this energy scale while suppressing the increased beam-induced-background (BIB) from muon decays at 10 TeV. The detector consists of an all-silicon tracker immersed in a 5T solenoidal field. High-granularity silicon-tungsten and iron-scintillator calorimetry is optimized to contain high-energy showers and allow for particle-flow reconstruction. To discriminate the BIB from physics signals, MAIA’s calorimeters must provide good timing information, fine spatial granularity, and high energy resolution. The MAIA collaboration calibrated and tested MAIA’s Hadronic Calorimeter (HCAL) performance through Anti-kT jet reconstruction efficiency and energy resolution.
| What category does your poster fit in? | Detector |
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