Counterterrorist Detection Techniques of Explosives 2007
DOI: 10.1016/b978-044452204-7/50025-0
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Neutron Techniques for Detection of Explosives

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Cited by 6 publications
(3 citation statements)
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“…Other approaches to explosive detection include using physical methods, such as mass spectrometry [ 10 ], differential mobility spectrometry [ 11 ], electrochemical methods [ 12 ], microcantilever devices [ 13 ], neutron techniques [ 14 ], nuclear quadrupole resonance methods [ 15 ], X-ray diffraction methods [ 16 ], millimeter-wave [ 17 ] or terahertz imaging [ 18 ], and, finally, laser-based detection methods [ 19 ]. The main disadvantages of these methods are the lack of portability, a need for special algorithms for transferring the sensory event to a readable signal, a noticeable time delay from the sensing event to the physical signal, the high cost of equipment, and, in most cases, the requirement for operation by highly trained personnel.…”
Section: Introductionmentioning
confidence: 99%
“…Other approaches to explosive detection include using physical methods, such as mass spectrometry [ 10 ], differential mobility spectrometry [ 11 ], electrochemical methods [ 12 ], microcantilever devices [ 13 ], neutron techniques [ 14 ], nuclear quadrupole resonance methods [ 15 ], X-ray diffraction methods [ 16 ], millimeter-wave [ 17 ] or terahertz imaging [ 18 ], and, finally, laser-based detection methods [ 19 ]. The main disadvantages of these methods are the lack of portability, a need for special algorithms for transferring the sensory event to a readable signal, a noticeable time delay from the sensing event to the physical signal, the high cost of equipment, and, in most cases, the requirement for operation by highly trained personnel.…”
Section: Introductionmentioning
confidence: 99%
“…Explosive detection systems (EDS) based on thermal neutron activation (TNA) depend on the quality of signatures of characteristic photons for their detection and characterization (Kuznetsov & Osetrov, 2006;Koltick & McConchie, 2007;Lanza, 2007;Whetstone & Kearfott, 2014). Both prompt-and thermal activation analyses have been investigated for the detection of concealed explosives in luggage, vehicles, air cargo and for humanitarian demining.…”
Section: Introductionmentioning
confidence: 99%
“…Neutron tomography finds different use in a broad spectrum of applications. As an example, it is possible to apply this technique in archeology for dating and studying historical artworks [1] , in materials science [2], in fuel cells research [3], in biological and medical applications [4], and in homeland security and contraband detection [5]. Taking into account the opposite trend of cross section for different materials as compared to X-rays, neutrons are a good alternative for scanning light materials.…”
Section: Introductionmentioning
confidence: 99%