Conveners
User Talks: Block A
- Philip Schuster (SLAC)
User Talks: Block B
- Mei Bai (SLAC)
Low Gain Avalanche Detectors (LGADs) feature a fast rise time (~500 ps), exceptional time resolution (down to 17 ps), and the potential for very high repetition rates, with full charge collection in about 1 ns. These properties make them attractive for near-future experiments such as e⁺e⁻ Higgs factories (e.g., FCC-ee) and the ePIC detector at the Electron–Ion Collider. However, conventional...
Low Gain Avalanche Detectors (LGADs) fabricated in wide band gap materials including Silicon Carbide (SiC) and Gallium Nitride (GaN) show promise for application to future colliders. Test beams, such as LESA, could be well suited for a range of studies such as timing and spatial resolution, and performance after irradiation. Our collaboration has already performed a number of test beam runs...
4D Pixel detector will be a necessity for tracking detector at future colliders such as the Muon Collider or Future Circular Collider. To advance the R&D towards these 4D Pixel detector we are proposing a demonstrator project that aims at developing a full 4D tracking telescope that serves two purposes: (1) understand a 4D tracking system as a whole and (2) aid characterization of single...
The Detector R&D Collaboration for Calorimeters (DRD6) was established at CERN to pursue research in calorimeter technologies and concepts for future colliders. While the technologies under development vary greatly in both nature and maturity, the common complexities of detector testing led to the formation of a test beam and tools and software working group to tackle these challenges through...
