Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Radiation detector based on 4H-SiC used for thermal neutron detection

NázevTitle
Radiation detector based on 4H-SiC used for thermal neutron detectionRadiation detector based on 4H-SiC used for thermal neutron detection
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
B. Zaťko, A. Šagátová, K. Sedlačková, Z. Kohout, C. Granja
DOIDOI
10.1088/1748-0221/11/11/C11022
Časopis / citaceJournal / citation
Journal of Instrumentation. 2016, 11(11), ISSN 1748-0221.
RokYear
2016
JazykLanguage
eng
WoSWoS
000395672800022
ScopusScopus
2-s2.0-84999651979
RIVRIV
RIV/68407700:21220/16:00349278!RIV21-MSM-21220___
ProjektProject
VdG - Van de Graaff - urychlovač iontů HV2500 jako laditelný zdroj neutronů v rámci české a evropské velké infrastruktury - LM2011030 (2012–2015)VdG - Van de Graaff - urychlovač iontů HV2500 jako laditelný zdroj neutronů v rámci české a evropské velké infrastruktury - LM2011030 (2012–2015); Institucionální podpora na rozvoj výzkumné org.Institucionální podpora na rozvoj výzkumné org.; VdG II - Urychlovač Van de Graaff – laditelný zdroj monoenergetických neutronů a lehkých iontů - LM2015077 (2016–2019)VdG II - Urychlovač Van de Graaff – laditelný zdroj monoenergetických neutronů a lehkých iontů - LM2015077 (2016–2019)

AbstraktAbstract

In this work we have focused on detection of thermal neutrons generated by 239Pu–Be isotopic neutron source. A high quality liquid phase epitaxial layer of 4H-SiC was used as a detection region. The thickness of the layer was 70 μ m and the diameter of circular Au/Ni Schottky contact was 4.5 mm. Around the Schottky contact two guard rings were created. The detector structure was first examined as a detector of protons and alpha particles for energy calibration. Monoenergetic protons of energies from 300 keV up to 1.9 MeV were used for detector energy calibration and a good linearity was observed. The energy resolution of 35 keV was obtained for 1.9 MeV protons. The 6LiF conversion layer was applied on the detector Schottky contact. In the experiment we used different thicknesses of conversion layers from 5 μ m up to 35 μ m. Measured detected spectra show two parts corresponding to alpha particles detection in lower energy channels and 3H in higher energy channels. We have also performed simulations of thermal neutron detection using MCNPX (Monte Carlo N-particle eXtended) code. The detection efficiency and the detector response to thermal neutrons was calculated with respect to the 6LiF layer thickness. The detection efficiency calculation is found to be in good agreement with the experiment.

In this work we have focused on detection of thermal neutrons generated by 239Pu–Be isotopic neutron source. A high quality liquid phase epitaxial layer of 4H-SiC was used as a detection region. The thickness of the layer was 70 μ m and the diameter of circular Au/Ni Schottky contact was 4.5 mm. Around the Schottky contact two guard rings were created. The detector structure was first examined as a detector of protons and alpha particles for energy calibration. Monoenergetic protons of energies from 300 keV up to 1.9 MeV were used for detector energy calibration and a good linearity was observed. The energy resolution of 35 keV was obtained for 1.9 MeV protons. The 6LiF conversion layer was applied on the detector Schottky contact. In the experiment we used different thicknesses of conversion layers from 5 μ m up to 35 μ m. Measured detected spectra show two parts corresponding to alpha particles detection in lower energy channels and 3H in higher energy channels. We have also performed simulations of thermal neutron detection using MCNPX (Monte Carlo N-particle eXtended) code. The detection efficiency and the detector response to thermal neutrons was calculated with respect to the 6LiF layer thickness. The detection efficiency calculation is found to be in good agreement with the experiment.