Near Real-Time Standoff Detection of Explosives in a Realistic Outdoor Environment at 55 m Distance

Anna Pettersson; Ida Johansson; Sara Wallin; Markus Nordberg; Henric Ostmark

doi:10.1002/prep.200800055

Near Real-Time Standoff Detection of Explosives in a Realistic Outdoor Environment at 55 m Distance

Anna Pettersson, Ida Johansson, Sara Wallin, Markus Nordberg, Henric Ostmark

Combustion Physics

Research output: Contribution to journal › Article › peer-review

Abstract

Standoff identification of explosives at distances of up to 55 in has been performed by applying spontaneous Raman spectroscopy. This work has been focused on detection in a realistic environment, using an outdoors test field and performing experiments under varying weather conditions such as rain- or snowfall or bright sunshine. The instrumentation, based on a 532 nm pulsed laser source combined with gated detection, proved the performance insensitive to weather variations. Investigated HMEs and precursors were TATP, HMTD, HP, MEKP, NM, NB, and IPN; all in bulk quantities. The time needed for acquiring spectra was typically between single pulse (5 ns) and 10 s. Detection through green and brown glass bottles and PET bottles were tried and found viable.

Original language	English
Pages (from-to)	297-306
Journal	Propellants, Explosives, Pyrotechnics
Volume	34
Issue number	4
DOIs	https://doi.org/10.1002/prep.200800055
Publication status	Published - 2009

Subject classification (UKÄ)

Atom and Molecular Physics and Optics

Free keywords

Raman Spectroscopy
IED
Explosives Detection
HME
Standoff

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10.1002/prep.200800055

Cite this

@article{eb91764080124184ba9e1338812351cc,

title = "Near Real-Time Standoff Detection of Explosives in a Realistic Outdoor Environment at 55 m Distance",

abstract = "Standoff identification of explosives at distances of up to 55 in has been performed by applying spontaneous Raman spectroscopy. This work has been focused on detection in a realistic environment, using an outdoors test field and performing experiments under varying weather conditions such as rain- or snowfall or bright sunshine. The instrumentation, based on a 532 nm pulsed laser source combined with gated detection, proved the performance insensitive to weather variations. Investigated HMEs and precursors were TATP, HMTD, HP, MEKP, NM, NB, and IPN; all in bulk quantities. The time needed for acquiring spectra was typically between single pulse (5 ns) and 10 s. Detection through green and brown glass bottles and PET bottles were tried and found viable.",

keywords = "Raman Spectroscopy, IED, Explosives Detection, HME, Standoff",

author = "Anna Pettersson and Ida Johansson and Sara Wallin and Markus Nordberg and Henric Ostmark",

year = "2009",

doi = "10.1002/prep.200800055",

language = "English",

volume = "34",

pages = "297--306",

journal = "Propellants, Explosives, Pyrotechnics",

issn = "1521-4087",

publisher = "John Wiley & Sons Inc.",

number = "4",

}

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T1 - Near Real-Time Standoff Detection of Explosives in a Realistic Outdoor Environment at 55 m Distance

AU - Pettersson, Anna

AU - Johansson, Ida

AU - Wallin, Sara

AU - Nordberg, Markus

AU - Ostmark, Henric

PY - 2009

Y1 - 2009

N2 - Standoff identification of explosives at distances of up to 55 in has been performed by applying spontaneous Raman spectroscopy. This work has been focused on detection in a realistic environment, using an outdoors test field and performing experiments under varying weather conditions such as rain- or snowfall or bright sunshine. The instrumentation, based on a 532 nm pulsed laser source combined with gated detection, proved the performance insensitive to weather variations. Investigated HMEs and precursors were TATP, HMTD, HP, MEKP, NM, NB, and IPN; all in bulk quantities. The time needed for acquiring spectra was typically between single pulse (5 ns) and 10 s. Detection through green and brown glass bottles and PET bottles were tried and found viable.

AB - Standoff identification of explosives at distances of up to 55 in has been performed by applying spontaneous Raman spectroscopy. This work has been focused on detection in a realistic environment, using an outdoors test field and performing experiments under varying weather conditions such as rain- or snowfall or bright sunshine. The instrumentation, based on a 532 nm pulsed laser source combined with gated detection, proved the performance insensitive to weather variations. Investigated HMEs and precursors were TATP, HMTD, HP, MEKP, NM, NB, and IPN; all in bulk quantities. The time needed for acquiring spectra was typically between single pulse (5 ns) and 10 s. Detection through green and brown glass bottles and PET bottles were tried and found viable.

KW - Raman Spectroscopy

KW - IED

KW - Explosives Detection

KW - HME

KW - Standoff

U2 - 10.1002/prep.200800055

DO - 10.1002/prep.200800055

M3 - Article

SN - 1521-4087

VL - 34

SP - 297

EP - 306

JO - Propellants, Explosives, Pyrotechnics

JF - Propellants, Explosives, Pyrotechnics

IS - 4

ER -

Near Real-Time Standoff Detection of Explosives in a Realistic Outdoor Environment at 55 m Distance

Abstract

Subject classification (UKÄ)

Free keywords

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