Laser-induced breakdown spectroscopy for detection of explosives residues: a review of recent advances, challenges, and future prospects

Gottfried, Jennifer L.; Lucia, Frank C. De; Munson, Chase A.; Miziolek, Andrzej W.

doi:10.1007/s00216-009-2802-0

Cited by 286 publications

(158 citation statements)

References 130 publications

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“…The excited species can be identified by their characteristic fluo− rescence spectra. The capability to perform non−contact real time detection of trace amounts of matter makes these techniques very promising [50][51][52][53].…”

Section: Optical Detection Of Explosivesmentioning

confidence: 99%

Towards optoelectronic detection of explosives

Wojtas

Stacewicz

Bielecki

et al. 2013

Opto-Electronics Review

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Detection of explosives is an important challenge for contemporary science and technology of security systems. We present an application of NOx sensors equipped with concentrator in searching of explosives. The sensors using CRDS with blue — violet diode lasers (410 nm) as well as with QCL lasers (5.26 μm and 4.53 μm) are described. The detection method is based either on reaction of the sensors to the nitrogen oxides emitted by explosives or to NOx produced during thermal decomposition of explosive vapours. For TNT, PETN, RDX, and HMX the detection limit better than 1 ng has been achieved.

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Section: Optical Detection Of Explosivesmentioning

confidence: 99%

Towards optoelectronic detection of explosives

Wojtas

Stacewicz

Bielecki

et al. 2013

Opto-Electronics Review

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“…The capability to perform non-contact real time multi-element detection makes LIBS a very interesting method for different applications [62][63][64], including the detection of explosives in trace amounts [65][66][67][68][69]. A typical setup of the LIBS sensor is shown in Fig.…”

Section: Laser Induced Breakdown Spectroscopy (Libs)mentioning

confidence: 99%

Sensors and Systems for the Detection of Explosive Devices - An Overview

Bielecki¹,

Janucki²,

Kawalec³

et al. 2012

Metrology and Measurement Systems

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The paper presents analyses of current research projects connected with explosive material sensors. Sensors are described assigned to X and γ radiation, optical radiation sensors, as well as detectors applied in gas chromatography, electrochemical and chemical sensors. Furthermore, neutron techniques and magnetic resonance devices were analyzed. Special attention was drawn to optoelectronic sensors of explosive devices.

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“…As a result, investments have been made toward developing optical standoff detection approaches [3], including visible Raman scattering [4,5], laser-induced breakdown spectroscopy (LIBS) [6,7], photofragment (PF)-based approaches [8], coherent anti-Stokes Raman scattering (CARS) [9], and both passive and active infrared detection [10]. Thus far not one of these approaches has demonstrated the potential to achieve standoff detection of explosives traces with a field-deployable system on a variety of surfaces in realistic conditions.…”

Section: Introductionmentioning

confidence: 99%

Standoff ultraviolet raman scattering detection of trace levels of explosives.

Kulp¹,

Bisson²,

Reichardt³

2011

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Ultraviolet (UV) Raman scattering with a 244-nm laser is evaluated for standoff detection of explosive compounds. The measured Raman scattering albedo is incorporated into a performance model that focused on standoff detection of trace levels of explosives. This model shows that detection at ~100 m would likely require tens of seconds, discouraging application at such ranges, and prohibiting search-mode detection, while leaving open the possibility of short-range pointand-stare detection. UV Raman spectra are also acquired for a number of anticipated background surfaces: tile, concrete, aluminum, cloth, and two different car paints (black and silver). While these spectra contained features in the same spectral range as those for TNT, we do not observe any spectra similar to that of TNT.

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Laser-induced breakdown spectroscopy for detection of explosives residues: a review of recent advances, challenges, and future prospects

Cited by 286 publications

References 130 publications

Towards optoelectronic detection of explosives

Towards optoelectronic detection of explosives

Sensors and Systems for the Detection of Explosive Devices - An Overview

Standoff ultraviolet raman scattering detection of trace levels of explosives.

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