18–20 Nov 2020
Europe/Zagreb timezone

Double Sided LGADs for 5D Measurements

19 Nov 2020, 17:00
20m

Speaker

Ronald Lipton (Fermi National Accelerator Lab. (US))

Description

We describe and simulate a concept which combines small pixels enabled by 3D sensor-electronics integration with gain produced by a Low Gain Avalanche Diode (LGAD) layer (inverted LGAD). The detector is double-sided, with electrons collected by the cathode, which provides timing information, and an anode with small pixels to provide position and angle information. The cathode can be coarse grained, providing timing with fewer fast amplifiers to limit power consumption. The anode layer benefits from the gain of the LGAD, with larger signals that also limit the power needed. Position can be reconstructed by measuring the pattern of total charge deposited on the anode. Angle and depth of charge deposit can be measured by the shapes of the anode pulses. We describe a fabrication option based on buried layers. We also describe a possible assembly technology based on 3D integration.

Author

Ronald Lipton (Fermi National Accelerator Lab. (US))

Co-author

Ryan Heller (Fermi National Accelerator Lab. (US))

Presentation materials