Title: Detection of Combined n/γ Fission Signatures Induced by an Epithermal Neutron Source
Authors: OCHERASHVILI AHARONBOGUCARSKA TATJANABECK ARIEHEGER G.MOSCONI MARITAROESGEN ERICCROCHEMORE JEAN-MICHELMAYOROV VALERIYVARASANO GIOVANNIPEDERSEN BENT
Citation: Journal of Nuclear Engineering and Radiation Science vol. 3 no. 3 p. 030911/1-030911/6
Publisher: ASME
Publication Year: 2017
JRC N°: JRC110741
ISSN: 2332-8983 (online)
URI: http://publications.jrc.ec.europa.eu/repository/handle/JRC110741
DOI: 10.1115/1.4036698
Type: Articles in periodicals and books
Abstract: In this paper, a method is presented for the detection of special nuclear materials (SNMs) in shielded containers, which is both sensitive and applicable under field conditions. The method uses an external pulsed neutron source to induce fission in SNM and subsequent detection of the fast prompt fission neutrons. The detectors surrounding the container under investigation are liquid scintillation detectors able to distinguish gamma rays from fast neutrons by means of pulse shape discrimination method (PSD). One advantage of these detectors, besides the ability for PSD analysis, is that the analog signal from a detection event is of very short duration (typically few tens of nanoseconds). This allows the use of very short coincidence gates for the detection of the prompt fission neutrons in multiple detectors, while benefiting from a low background coincidence rate, yielding a low detection limit. Another principle advantage of this method derives from the fact that the external neutron source is pulsed. By proper time gating, the interrogation can be conducted by epithermal source neutrons only. These neutrons do not appear in the fast neutron signal following the PSD analysis, thus providing a fundamental method for separating the interrogating source neutrons from the sample response in the form of fast fission neutrons. This paper describes laboratory tests with a configuration of eight detectors in the Pulsed Neutron Interrogation Test Assembly (PUNITA). Both the photon and neutron signature for induced fission is observed, and the methods used to isolate these signatures are described and demonstrated.
JRC Directorate:Nuclear Safety and Security

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