Recently, a compact solid-state neutron detector capable of simultaneously detecting thermal and fast neutrons was proposed [M. Marinelli et al., Appl. Phys. Lett. 89, 143509 (2006)]. Its design is based on a p-type/intrinsic/metal layered structure obtained by Microwave Plasma Chemical Vapor Deposition (CVD) of homoepitaxial diamond followed by thermal evaporation of an Al contact and a <sup>6</sup>LiF converting layer. Fast neutrons are directly detected in the CVD diamond bulk, since they have enough energy to produce the <sup>12</sup>C(n, α)<sup>9</sup>Be reaction in diamond. Thermal neutrons are instead converted into charged particles in the <sup>6</sup>LiF layer through the <sup>6</sup>Li(n, α)T nuclear reaction. These charged particles are then detected in the diamond layer. The thickness of the <sup>6</sup>LiF converting layer and the CVD diamond sensing layer affect the counting efficiency and energy resolution of the detector both for low- (thermal) and high-energy neutrons. An analysis is carried out on the dynamics of the <sup>6</sup>Li(n, α)T and the <sup>12</sup>C(n, α)<sup>9</sup>Be reactions products, and the distribution of the energy released inside the sensitive layer is calculated. The detector counting efficiency and energy resolution were accordingly derived as a function of the thickness of the <sup>6</sup>LiF and CVD diamond layers, both for thermal and fast neutrons, thus allowing us to choose the optimum detector design for any particular application. Comparison with experimental results is also reported.

Almaviva, S., Marinelli, M., Milani, E., Prestopino, G., Tucciarone, A., Verona, C., et al. (2008). Thermal and fast neutron detection in chemical vapor deposition single-crystal diamond detectors. JOURNAL OF APPLIED PHYSICS, 103(5), 054501 [10.1063/1.2838208].

Thermal and fast neutron detection in chemical vapor deposition single-crystal diamond detectors

MARINELLI, MARCO;MILANI, ENRICO;TUCCIARONE, ALDO;Verona, C;VERONA RINATI, GIANLUCA;
2008-01-01

Abstract

Recently, a compact solid-state neutron detector capable of simultaneously detecting thermal and fast neutrons was proposed [M. Marinelli et al., Appl. Phys. Lett. 89, 143509 (2006)]. Its design is based on a p-type/intrinsic/metal layered structure obtained by Microwave Plasma Chemical Vapor Deposition (CVD) of homoepitaxial diamond followed by thermal evaporation of an Al contact and a 6LiF converting layer. Fast neutrons are directly detected in the CVD diamond bulk, since they have enough energy to produce the 12C(n, α)9Be reaction in diamond. Thermal neutrons are instead converted into charged particles in the 6LiF layer through the 6Li(n, α)T nuclear reaction. These charged particles are then detected in the diamond layer. The thickness of the 6LiF converting layer and the CVD diamond sensing layer affect the counting efficiency and energy resolution of the detector both for low- (thermal) and high-energy neutrons. An analysis is carried out on the dynamics of the 6Li(n, α)T and the 12C(n, α)9Be reactions products, and the distribution of the energy released inside the sensitive layer is calculated. The detector counting efficiency and energy resolution were accordingly derived as a function of the thickness of the 6LiF and CVD diamond layers, both for thermal and fast neutrons, thus allowing us to choose the optimum detector design for any particular application. Comparison with experimental results is also reported.
2008
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore FIS/01 - FISICA SPERIMENTALE
English
Con Impact Factor ISI
diamond;fission reactor instrumentation;neutron detection;plasma CVD;radiation monitoring;semiconductor counters;
Almaviva, S., Marinelli, M., Milani, E., Prestopino, G., Tucciarone, A., Verona, C., et al. (2008). Thermal and fast neutron detection in chemical vapor deposition single-crystal diamond detectors. JOURNAL OF APPLIED PHYSICS, 103(5), 054501 [10.1063/1.2838208].
Almaviva, S; Marinelli, M; Milani, E; Prestopino, G; Tucciarone, A; Verona, C; VERONA RINATI, G; Angelone, M; Lattanzi, D; Pillon, M; Montereali, R; Vincenti, M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/50352
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