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Preliminary benchmarks and analysis of boundary conditions in a trenched microstructured silicon radiation detector.

Authors :
Sharma, Sanchit
Laramore, Diego
Ochs, Taylor
McGregor, Douglas S.
Bellinger, Steven L.
McNeil, Walter J.
Bahadori, Amir A.
Source :
Journal of Applied Physics. 4/7/2022, Vol. 131 Issue 13, p1-12. 12p.
Publication Year :
2022

Abstract

Microstructured neutron detectors have the benefit of enhanced neutron detection efficiency as compared to planar devices, achieved by etching 6LiF-filled trenches on the top surface of a silicon PIN diode. This sensor geometry results in a complex electric field distribution and depletion characteristics within the diode under reverse bias. For the first time on record, the effects of a fixed oxide charge on the microstructured device depletion characteristics and mobile carrier transport is investigated. Prototype detectors were fabricated with non-conformal surface doping. Capacitance voltage and current voltage measurements were performed for these prototypes and compared with COMSOL Multiphysics simulations. A spectral response from an 241Am alpha particle source was acquired and analyzed. It was found that monoenergetic alpha particles produce three prominent peaks in the pulse height spectrum output by the device. The peaks were confirmed by simulations to correlate with dead layers and incident trajectories into the microstructure. It was also found that significant differences in pulse rise time result, corresponding with events arriving in a low-field region in the fins and a high-field region in the bulk. Geant4 was utilized for radiation transport, interaction modeling, and benchmarking the spectral data. The results of this simulation work provide confidence in the ability to attain and benchmark electrical characteristics and spectral data for semiconductor radiation detectors employing complex microstructures. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00218979
Volume :
131
Issue :
13
Database :
Academic Search Index
Journal :
Journal of Applied Physics
Publication Type :
Academic Journal
Accession number :
156224917
Full Text :
https://doi.org/10.1063/5.0087397