W. Chen scite author profile

Low Gain Avalanche Diodes (LGADs) are thin (20-50 μm) silicon diode sensors with modest internal gain (typically 5 to 50) and exceptional time resolution (17 ps to 50 ps). However, the granularity of such devices is limited to the millimeter scale due to the need to include protection structures at the boundaries of the readout pads to avoid premature breakdown due to large local electric fields. Here, we present a new approach – the Deep-Junction LGAD (DJ-LGAD) – that decouples the high-field gain region from the readout plane. This approach is expected to improve the achievable LGAD granularity to the tens-of-micron scale while maintaining direct charge collection on the segmented electrodes.

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A new prototype X-ray fluorescence detector system with silicon drift detector array

Chen

DeGeronimo

Elliott

et al. 2016

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Improvement of SDD-Maia Detector for X-ray Fluorescence Detection

Chen

Elliott

Giacomini

et al. 2017

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W. Chen

Design of high efficiency, low profile, low voltage converter with integrated magnetics

Application of magnetic neutral loop discharge plasma to SiO2 etching process

A new approach to achieving high granularity for silicon diode detectors with impact ionization gain

A new prototype X-ray fluorescence detector system with silicon drift detector array

Improvement of SDD-Maia Detector for X-ray Fluorescence Detection

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