Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Semi-insulating GaAs detectors with HDPE layer for detection of fast neutrons from D-T nuclear reaction

NázevTitle
Semi-insulating GaAs detectors with HDPE layer for detection of fast neutrons from D-T nuclear reactionSemi-insulating GaAs detectors with HDPE layer for detection of fast neutrons from D-T nuclear reaction
Druh výsledkuResult type
Příspěvek ve sborníkuProceedings paper
AutořiAuthors
A. Sagatova, B. Zatko, K. Sedlackova, M. Pavlovic, M. Solar, C. Granja
DOIDOI
10.1142/S2010194516602337
Časopis / citaceJournal / citation
In: Journal of Instrumentation. Bristol: IOP Publishing Ltd, 2014. Journal of Instrumentation. ISSN 1748-0221.
JazykLanguage
eng
WoSWoS
000385793900027
RIVRIV
RIV/68407700:21670/14:00310945!RIV17-MSM-21670___
ProjektProject
Van de Graaff - urychlovač iontů HV2500 jako laditelný zdroj neutronů v rámci české a evropské velké infrastrukturyAccelerator of ions HV2500 as tuneable neutron source in frame of Czech and European Large Infrastructure

AbstraktAbstract

Bulk semi-insulating (SI) GaAs detectors optimized for fast-neutron detection were examined using mono-energetic neutrons. The detectors have an active area of 7.36 mm(2) defined by a multipixel structure of a AuZn Schottky contact allowing a relatively high breakdown voltage (300 V) sufficient for full depletion of the detector structure. The Schottky contact is covered by a HDPE (high density polyethylene) conversion layer, where neutrons transfer their kinetic energy to hydrogen atoms through elastic nuclear collisions. The detectors were exposed to mono-energetic neutrons generated by a deuterium (D)-tritium (T) nuclear reaction at a Van de Graaff accelerator. Neutrons reached a kinetic energy of 16.8 MeV when deuterons were accelerated by 1 MV potential. The influence of the HDPE layer thickness on the detection efficiency of the fast neutrons was studied. The thickness of the conversion layer varied from 50 mu m to 1300 mu m. The increase of the HDPE layer thickness led to a higher detection efficiency due to higher conversion efficiency of the HDPE layer. The effect of the active detector thickness modified by the detector reverse bias voltage on the detection efficiency was also evaluated. By increasing the detector reverse voltage, the detector active volume expands to the depth and also to the sides, slightly increasing the neutron detection efficiency.

Bulk semi-insulating (SI) GaAs detectors optimized for fast-neutron detection were examined using mono-energetic neutrons. The detectors have an active area of 7.36 mm(2) defined by a multipixel structure of a AuZn Schottky contact allowing a relatively high breakdown voltage (300 V) sufficient for full depletion of the detector structure. The Schottky contact is covered by a HDPE (high density polyethylene) conversion layer, where neutrons transfer their kinetic energy to hydrogen atoms through elastic nuclear collisions. The detectors were exposed to mono-energetic neutrons generated by a deuterium (D)-tritium (T) nuclear reaction at a Van de Graaff accelerator. Neutrons reached a kinetic energy of 16.8 MeV when deuterons were accelerated by 1 MV potential. The influence of the HDPE layer thickness on the detection efficiency of the fast neutrons was studied. The thickness of the conversion layer varied from 50 mu m to 1300 mu m. The increase of the HDPE layer thickness led to a higher detection efficiency due to higher conversion efficiency of the HDPE layer. The effect of the active detector thickness modified by the detector reverse bias voltage on the detection efficiency was also evaluated. By increasing the detector reverse voltage, the detector active volume expands to the depth and also to the sides, slightly increasing the neutron detection efficiency.