Design of the rapidly relocatable tagged neutron inspection system of the C-BORD project

Sardet, Alix; Pérot, B.; Carasco, C.; Sannié, Guillaume; Moretto, S.; Nebbia, G.; Fontana, Cristiano Lino; Moszyński, M.; Sibczyński, P.; Grodzicki, K.; Świderski, Ł.; Iovene, Alessandro; Tintori, C.

doi:10.1109/nssmic.2016.8069693

Cited by 14 publications

(16 citation statements)

References 4 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…To offer more operational flexibility, the EURITRACK design evolved towards the relocatable and compact C-BORD Rapidely Relocatable Tagged Neutron Inspection System (RRTNIS) shown in Figure 25, in which the neutron generator, the radiation shield, the detectors and the electronics are placed inside a container for outdoor operation, with temperature stabilization inside [60]. Fig.…”

Section: C-bord Rapidly Relocatable Tagged Neutron Inspection Systemmentioning

confidence: 99%

“…Since the presence of a container also increases the detectors background due to backscattered neutrons and gamma rays, MCNP calculations have been performed to assess the total count rate taking into account both the polyethylene shield and the presence of a cargo container. In the worst case, consisting of a cargo container loaded with an iron cargo and a total neutron flux of 10 8 n/s, the count rate of the twenty 5 00 Â 5 00 Â 10 00 NaI(Tl) scintillation detectors with a 600 keV low-energy threshold is predicted to be 6.7 Â 10 5 s À1 [60]. With the same neutron flux, the total count rate of the four 3 00 Â 3 00 LaBr 3 scintillation detectors with a 100 keV threshold is expected to be about to be about 4.3 Â 10 4 s À1 .…”

Section: C-bord Rapidly Relocatable Tagged Neutron Inspection Systemmentioning

confidence: 99%

“…MCNP6 simulation showing the random background brought by the polyethylene shield, with the effect of a 5 cm thick lead plate between detectors and polyethylene[60].…”

mentioning

confidence: 99%

See 2 more Smart Citations

Sea container inspection with tagged neutrons

Pérot

Carasco

Eléon

et al. 2021

EPJ Nuclear Sci. Technol.

Self Cite

View full text Add to dashboard Cite

Neutron inspection of sea-going cargo containers has been widely studied in the past 20 yr to non-intrusively detect terrorist threats, like explosives or Special Nuclear Materials (SNM), and illicit goods, like narcotics or smuggling materials. Fast 14 MeV neutrons are produced by a portable generator with the t(d, n)α fusion reaction, and tagged in both direction and time thanks to the alpha particle detection. This Associated Particle Technique (APT) allows focusing inspection on specific areas of interest in the containers, previously identified as containing suspicious items with X-ray radiographic scanners or radiation portal monitors. We describe the principle of APT for non-nuclear material identification, and for nuclear material detection, then we provide illustrations of the performances for 10 min inspections with significant quantities (kilograms) of explosives, illicit drugs, or SNM, in different cargo cover loads (e.g. metallic, organic, or ceramic matrices).

show abstract

Section: C-bord Rapidly Relocatable Tagged Neutron Inspection Systemmentioning

confidence: 99%

Section: C-bord Rapidly Relocatable Tagged Neutron Inspection Systemmentioning

confidence: 99%

See 1 more Smart Citation

Sea container inspection with tagged neutrons

Pérot

Carasco

Eléon

et al. 2021

EPJ Nuclear Sci. Technol.

Self Cite

View full text Add to dashboard Cite

show abstract

“…The fast-neutron imager prototype was tested three times with the same experimental setup by using the DT (14 MeV) neutron generator of the Rapidly Relocatable Tagged Neutron Inspection 270 System (RTNIS) used in the framework of the European H2020 C-BORD project [25] (see Fig. 11).…”

Section: A Experimental Setupmentioning

confidence: 99%

Demonstration of coded-aperture fast-neutron imaging based on Timepix detector

Lynde

Carrel

Schoepff

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

View full text Add to dashboard Cite

Localization of radioactive hot spots is an important issue for nuclear industry (decommissioning, waste management, radiation protection) as well as for Homeland Security applications (non-proliferation of special nuclear material and management of nuclear accidents) or for nuclear research (Gen IV and fusion reactors). Seeking out the fast-neutron emission is of great interest as an alternative to only-gamma imaging techniques. This work presents a highly compact (19×14×15 cm 3 , 2.2 kg) fast-neutron imager based on a MURA coded-aperture and a Timepix detector equipped with a specific converter layer. Neutron detection is obtained by adding a conversion layer of paraffin, sensitive to fast neutrons, on the Timepix detector. This semiconductor pixel detector is capable of identifying the charged particles (protons in our case) resulting from the neutron interactions.This paper describes the design and characterization of the main building blocks of our fast-neutron imager. First experimental demonstration of the prototype version will be also presented.

show abstract

“…The digitizer is interfaced with a low-cost, low-power, embedded computer (Beaglebone Black). The software controlling the digitizer is an open-source, distributed data acquisition system, called ABCD [34,35] developed for the H2020 C-BORD project [36,37]. ABCD is employed to provide a continuous stream of data to a custom analysis system, based on the group's experience developed during the FP7 TAWARA_RTM project [38].…”

Section: Data Acquisitionmentioning

confidence: 99%

A Novel Cosmic-Ray Neutron Sensor for Soil Moisture Estimation over Large Areas

Stevanato¹,

Baroni

Cohen

et al. 2019

Agriculture

Self Cite

View full text Add to dashboard Cite

A correct soil moisture estimation is a fundamental prerequisite for many applications: agriculture, meteorological forecast, flood and drought prediction, and, in general, water accounting and management. Traditional methods typically provide point-like measurements, but suffer from soil heterogeneity, which can produce significant misinterpretation of the hydrological scenarios. In the last decade, cosmic-ray neutron sensing (CRNS) has emerged as a promising approach for the detection of soil moisture content. CRNS can average soil moisture over a large volume (up to tens of hectares) of terrain with only one probe, thus overcoming limitations arising from the heterogeneity of the soil. The present paper introduces the development of a new CRNS instrument designed for agricultural applications and based on an innovative neutron detector. The new instrument was applied and tested in two experimental fields located in Potsdam (DE, Germany) and Lagosanto (IT, Italy). The results highlight how the new detector could be a valid alternative and robust solution for the application of the CRNS technique for soil moisture measurements in agriculture.

show abstract

Design of the rapidly relocatable tagged neutron inspection system of the C-BORD project

Cited by 14 publications

References 4 publications

Sea container inspection with tagged neutrons

Sea container inspection with tagged neutrons

Demonstration of coded-aperture fast-neutron imaging based on Timepix detector

A Novel Cosmic-Ray Neutron Sensor for Soil Moisture Estimation over Large Areas

Contact Info

Product

Resources

About