The Development of a Semtex-H Simulant for Terahertz Spectroscopy

The development and use of terahertz (THz) frequency spectroscopy systems for security screening has shown an increased growth over the past 15 years. In order to test these systems in real-world situations, safe simulants of illicit materials, such as Semtex-H, are required. Ideally, simulants shou...

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Published in:	Journal of infrared, millimeter and terahertz waves Vol. 38; no. 3; pp. 325 - 338
Main Authors:	Greenall, N., Valavanis, A., Desai, H. J., Acheampong, D. O., Li, L. H., Cunningham, J. E., Davies, A. G., Linfield, E. H., Burnett, A. D.
Format:	Journal Article
Language:	English
Published:	New York Springer US 01-03-2017 Springer Nature B.V
Subjects:	Classical Electrodynamics Decontamination Electrical Engineering Electronics and Microelectronics Engineering Genetic algorithms Instrumentation Organic chemistry Physical properties Security Spectral sensitivity Spectroscopy Spectrum analysis Surface energy Terahertz frequencies Volatility Semtex Simulant Explosive Terahertz Time-domain spectroscopy Genetic algorithm
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Abstract	The development and use of terahertz (THz) frequency spectroscopy systems for security screening has shown an increased growth over the past 15 years. In order to test these systems in real-world situations, safe simulants of illicit materials, such as Semtex-H, are required. Ideally, simulants should mimic key features of the material of interest, such that they at least resemble or even appear indistinguishable from the materials of interest to the interrogating technique(s), whilst not having hazardous or illicit properties. An ideal simulant should have similar physical properties (malleability, density, surface energy and volatility to the material of interest); be non-toxic and easy to clean and decontaminate from surfaces; be recyclable or disposable; and be useable in a public environment. Here, we present a method for developing such an explosive simulant (for Semtex-H) based on a database of THz spectra of common organic molecules, and the use of a genetic algorithm to select a mixture of compounds automatically to form such a simulant. Whilst we focus on a security application, this work could be applied to various other contexts, where the material of interest is dangerous, impractical or costly. We propose four mixtures that could then be used to test the spectral response of any instrument, working at terahertz frequencies, without the need for an explosive substance.
AbstractList	The development and use of terahertz (THz) frequency spectroscopy systems for security screening has shown an increased growth over the past 15 years. In order to test these systems in real-world situations, safe simulants of illicit materials, such as Semtex-H, are required. Ideally, simulants should mimic key features of the material of interest, such that they at least resemble or even appear indistinguishable from the materials of interest to the interrogating technique(s), whilst not having hazardous or illicit properties. An ideal simulant should have similar physical properties (malleability, density, surface energy and volatility to the material of interest); be non-toxic and easy to clean and decontaminate from surfaces; be recyclable or disposable; and be useable in a public environment. Here, we present a method for developing such an explosive simulant (for Semtex-H) based on a database of THz spectra of common organic molecules, and the use of a genetic algorithm to select a mixture of compounds automatically to form such a simulant. Whilst we focus on a security application, this work could be applied to various other contexts, where the material of interest is dangerous, impractical or costly. We propose four mixtures that could then be used to test the spectral response of any instrument, working at terahertz frequencies, without the need for an explosive substance. The development and use of terahertz (THz) frequency spectroscopy systems for security screening has shown an increased growth over the past 15 years. In order to test these systems in real-world situations, safe simulants of illicit materials, such as Semtex-H, are required. Ideally, simulants should mimic key features of the material of interest, such that they at least resemble or even appear indistinguishable from the materials of interest to the interrogating technique(s), whilst not having hazardous or illicit properties. An ideal simulant should have similar physical properties (malleability, density, surface energy and volatility to the material of interest); be non-toxic and easy to clean and decontaminate from surfaces; be recyclable or disposable; and be useable in a public environment. Here, we present a method for developing such an explosive simulant (for Semtex-H) based on a database of THz spectra of common organic molecules, and the use of a genetic algorithm to select a mixture of compounds automatically to form such a simulant. Whilst we focus on a security application, this work could be applied to various other contexts, where the material of interest is dangerous, impractical or costly. We propose four mixtures that could then be used to test the spectral response of any instrument, working at terahertz frequencies, without the need for an explosive substance.
Author	Acheampong, D. O. Greenall, N. Burnett, A. D. Cunningham, J. E. Linfield, E. H. Desai, H. J. Davies, A. G. Valavanis, A. Li, L. H.
Author_xml	– sequence: 1 givenname: N. orcidid: 0000-0002-7700-0549 surname: Greenall fullname: Greenall, N. organization: School of Electronic and Electrical Engineering, University of Leeds – sequence: 2 givenname: A. surname: Valavanis fullname: Valavanis, A. organization: School of Electronic and Electrical Engineering, University of Leeds – sequence: 3 givenname: H. J. surname: Desai fullname: Desai, H. J. organization: Centre for Applied Science and Technology, St Albans, Hertfordshire – sequence: 4 givenname: D. O. surname: Acheampong fullname: Acheampong, D. O. organization: Centre for Applied Science and Technology, St Albans, Hertfordshire – sequence: 5 givenname: L. H. surname: Li fullname: Li, L. H. organization: School of Electronic and Electrical Engineering, University of Leeds – sequence: 6 givenname: J. E. surname: Cunningham fullname: Cunningham, J. E. organization: School of Electronic and Electrical Engineering, University of Leeds – sequence: 7 givenname: A. G. surname: Davies fullname: Davies, A. G. organization: School of Electronic and Electrical Engineering, University of Leeds – sequence: 8 givenname: E. H. surname: Linfield fullname: Linfield, E. H. organization: School of Electronic and Electrical Engineering, University of Leeds – sequence: 9 givenname: A. D. surname: Burnett fullname: Burnett, A. D. email: A.D.Burnett@Leeds.ac.uk organization: School of Electronic and Electrical Engineering, University of Leeds, School of Chemistry, University of Leeds
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Snippet	The development and use of terahertz (THz) frequency spectroscopy systems for security screening has shown an increased growth over the past 15 years. In order... The development and use of terahertz (THz) frequency spectroscopy systems for security screening has shown an increased growth over the past 15 years. In order...
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SubjectTerms	Classical Electrodynamics Decontamination Electrical Engineering Electronics and Microelectronics Engineering Genetic algorithms Instrumentation Organic chemistry Physical properties Security Spectral sensitivity Spectroscopy Spectrum analysis Surface energy Terahertz frequencies Volatility
Title	The Development of a Semtex-H Simulant for Terahertz Spectroscopy
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