Conveners
LGAD Detector R&D
- Oskar Hartbrich (Oak Ridge National Lab)
LGAD Detector R&D
- Mathieu Benoit (ORNL)
Low Gain Avalanche Detectors (LGADs) are characterized by a fast rise time (~500ps) and extremely good time resolution (down to 17ps), and potential for a very high repetition rate with ~1 ns full charge collection. For the application of this technology to near future experiments such as e+e- Higgs factories (FCC-ee), the ePIC detector at the Electron-Ion Collider, or smaller experiments...
Reconstructing particle tracks in future high-luminosity collider experiments is expected to be challenging due to the huge pile-up tracks. 4D tracking by the inner tracking detectors with both spatial and timing resolution will provide reliable track reconstruction.
Capacitive Coupled Low Gain Avalanche Diodes (AC-LGADs) developed by KEK, Tsukuba group with Hamamatsu Photonics K.K. have an...
The acceptor removal mechanism is well established as a limiting factor for the operational lifespan of standard n-in-p Low-Gain Avalanche Diodes (LGADs) and has been extensively studied. However, with the emergence of new LGAD designs, such as resistive LGADs and compensated LGADs, attention must now shift to understanding donor removal at high initial donor concentrations ($>10^{16}$...
Tracking detectors in future high-energy and high-luminosity hadron colliders are required to correctly assign the tracks associated to the hard-scattering vertex among a huge number of pile-up vertices.
A detector with high spatial and timing resolution can remove pile-up tracks using the time information, enabling high-quality track reconstruction.
Capacitive Coupled Low Gain...
