Abstract
The identification of energetic materials in containments is an important challenge for analytical methods in the field of safety and security. Opening a package without knowledge of its contents and the resulting hazards is highly involved with risks and should be avoided whenever possible. Therefore, preferable methods work non-destructive with minimal interaction and are capable of identifying target substances in a containment quickly and reliably. Most spectroscopic methods find their limits, if the target substance is shielded by a covering material. To solve this problem, a combined laser drilling method with subsequent identification of the target substance by means of Raman spectroscopic measurements through microscopic bore holes of the covering material is presented. A pulsed laser beam is used for both the drilling process and as an excitation source for Raman measurements in the same optical setup. Results show the ability of this new method to gain high-quality spectra even when performed through microscopic small bore channels. With the laser parameters chosen right, the method can even be performed on highly sensitive explosives like triacetone triperoxide (TATP). Another advantageous effect arises in an observed reduction in unwanted fluorescence signal in the spectral data, resulting from the confocal-like measurement setup with the bore hole acting as aperture.
Highlights
The identification of explosives or hazardous substances concealed in a package is a great challenge for most analytical methods in the field of CBRNE detection
The results show the ability of this new method to gain high-quality spectra even with measurements performed through microscopic small bore channels
With the laser parameters chosen right, the method can even be performed on highly sensitive explosives like triacetone triperoxide (TATP)
Summary
The identification of explosives or hazardous substances concealed in a package is a great challenge for most analytical methods in the field of CBRNE detection. With the help of imaging methods like x-ray, radar or terahertz radiation, it is possible to provide information on the internal structure [1–5]. Spectroscopic methods like infrared or Raman find their limits, if the target substance is concealed in a. New technologies for detection, protection, decontamination and developments of the decision support systems in case of CBRNe event. Spatial offset Raman spectroscopy (SORS) can provide a good solution for partially transparent polymers and other materials, but cannot be applied in the case of metallic covers [6–9]. Technical solutions for a clarification in such situations and in particular for the identification of unknown substances in containments are urgently needed to decide ongoing steps. Preferred methods work nondestructive or can be performed with minimal interaction from a safe distance [10–12]
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