Development of gamma insensitive silicon carbide diagnostics to qualify intense thermal and epithermal neutron fields

Development of gamma insensitive silicon carbide diagnostics to qualify intense thermal and epithermal neutron fields

The e\_LiBANS project aims at creating accelerator based compact neutron facilities for diverse interdisciplinary applications. After the successful setting up and characterization of a thermal neutron source based on a medical electron LINAC, a similar assembly for epithermal neutrons has been deve...

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Veröffentlicht in:Journal of instrumentation 2020-06, Vol.15 (6), p.C06021-C06021
Hauptverfasser: Planell, O. Sans, Costa, M., Durisi, E., Lega, A., Mafucci, E., Menzio, L., Monti, V., Visca, L., Bedogni, R., Treccani, M., Pola, A., Bortot, D., Alikaniotis, K., Giannini, G., Gomez-Ros, J.M.
Format: Artikel
Sprache:eng
Schlagworte:
Bremsstrahlung
Fast neutrons
Neutrons
Photodiodes
Photon beams
Silicon carbide
Thermal neutrons
Thermodynamic properties
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Zusammenfassung:The e\_LiBANS project aims at creating accelerator based compact neutron facilities for diverse interdisciplinary applications. After the successful setting up and characterization of a thermal neutron source based on a medical electron LINAC, a similar assembly for epithermal neutrons has been developed. The project is based on an Elekta 18 MV LINAC coupled with a photoconverter-moderator system which deploys the (γ,n) photonuclear reaction to convert a bremsstrahlung photon beam into a neutron field. This communication describes the development of novel diagnostics to qualify the thermal and epithermal neutron fields that have been produced. In particular, a proof of concept for the use of silicon carbide photodiodes as thermal neutron rate detector is presented.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/15/06/C06021