Speaker
Description
We present recent progress towards the development of 4D-trackers with high granularity in position in time. As future colliders move to higher energy collisions, with increased particle occupancy, the need for 4D (spatial and temporal) tracking systems becomes extremely important to maintain the desired particle reconstruction efficiency. Additionally, the use of timing information is critical for particle identification (PID) and meeting future collider physics goals. Tracking detectors capable of achieving timing resolution around 10 ps and 5-10 μm spatial resolution are needed for many proposed future colliders, including the FCC-ee, Muon colliders [5], and the Electron–Ion Collider (EIC). New technologies and advanced manufacturing techniques are required to achieve these ambitious goals. We will present our recent progress towards achieved these target specifications through development of 3D-integrated sensors, advanced ASICs and monolithic active pixel sensors (MAPS). This research program leverages the unique combination of facilities and cross-disciplinary expertise of scientists and engineers at US National labs and USM Chile with industrial partners.
