Detection and disposal of improvised explosives

These proceedings contain the presentations and results of several discussions of the workshop on Detection and Disposal of Improvised Explosives held in St.-Petersburg, Russia, September 7-9, 2005. This Advanced Research Workshop was the fourth event concerning Detection of Explosives in connection...

Description complète

Détails bibliographiques
Autres auteurs : Schubert Hiltmar (Directeur de publication), Kuznecov Aleksej Pavlovič (Directeur de publication)
Format : Livre
Langue : anglais
Titre complet : Detection and disposal of improvised explosives / edited by Hiltmar Schubert, Andrey Kuznetsov
Publié : Dordrecht : Springer Netherlands , [20..]
Cham : Springer e-books
Springer Nature
Collection : NATO Security through Science Series
Titre de l'ensemble : NATO Security through Science Series
Accès en ligne : Accès Nantes Université
Accès direct soit depuis les campus via le réseau ou le wifi eduroam soit à distance avec un compte @etu.univ-nantes.fr ou @univ-nantes.fr
Note sur l'URL : Accès sur la plateforme de l'éditeur
Accès sur la plateforme Istex
Condition d'utilisation et de reproduction : Conditions particulières de réutilisation pour les bénéficiaires des licences nationales : https://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017
Contenu : DISPOSAL OF IMPROVISED EXPLOSIVES AND -DEVICES. DETECTION OF IMPROVISED EXPLOSIVES (IE) AND EXPLOSIVE DEVICES (IED). ON-SITE ANALYSIS OF EXPLOSIVES IN VARIOUS MATRICES. IEDS DETECTION BY EXISTING DETECTION TECHNIQUES. MICROWAVE SYSTEM FOR INSPECTION OF LUGGAGE AND PEOPLE. DEVELOPMENT OF METHODS AND EQUIPMENT FOR DETECTION OF EXPLOSIVES VAPORS IN THE ATMOSPHERE WITH LASER. DETECTION OF IMPROVISED EXPLOSIVES DEVICES (IED) BY USING TAGGED NEUTRON BEAMS. SENNA PORTABLE SENSOR FOR EXPLOSIVES DETECTION BASED ON NANOSECOND NEUTRON ANALYSIS. LIQUID BLAST INHIBITORS: TECHNOLOGY AND APPLICATION. RATIONAL DETECTION SCHEMES FOR TATP NATO ADVANCED RESEARCH WORKSHOP. PEROXIDE EXPLOSIVES. ASSOCIATED PARTICLE IMAGING: AN ENABLING TECHNOLOGY OF DETECTION OF IMPROVISED EXPLOSIVES. EXPERIENCE OF APPLICATION OF EXPLOSIVES DETECTORS BY FORENSIC SCIENCE UNITS OF THE MINISTRY OF INTERIOR OF RUSSIAN FEDERATION. TECHNICAL MASKING OF IMPROVISED EXPLOSIVE DEVICES. RESEARCH AND DEVELOPMENT ON HUMANITARIAN LANDMINE DETECTION SYSTEM BY A COMPACT DISCHARGE-TYPE D-D FUSION NEUTRON SOURCE. DETECTION OF NITROAROMATIC DERIVATIVES BY USING REACTIVE ORGANIC THIN LAYERS. DETECTION OF EXPLOSIVES BY QUADRUPOLE RESONANCE METHOD: NEW ASPECTS FOR SECURITY. CONCEALED EXPLOSIVES DETECTOR BASED ON PORTABLE NEUTRON GENERATOR. POSSIBILITIES OF CREATING IMPROVISED EXPLOSIVES AND EXPLOSIVE DEVICES. INVESTIGATION OF POSSIBILITY TO DETECT THE DETONATORS OF THE EXPLOSIVE DEVICES BY MEANS OF ED XRF APPROACH. EFFECT/BACKGROUND CORRELATIONS IN NANOSECOND NEUTRON ANALYSIS. USE OF NON-LINEAR JUNCTION DETECTORS TO ENSURE THE SAFETY OF IED SEARCH
Sujets :
Documents associés : Autre format: Detection and Disposal of Improvised Explosives
LEADER 06159clm a2200625 4500
001 PPN123116015
003 http://www.sudoc.fr/123116015
005 20241002160100.0
010 |a 978-1-402-04887-6 
017 7 0 |a 10.1007/978-1-4020-4887-6  |2 DOI 
035 |a (OCoLC)647111154 
035 |a Springer978-1-402-04887-6 
035 |a Springer978-1-4020-4887-6 
035 |a SPRINGER_EBOOKS_LN_PLURI_10.1007/978-1-4020-4887-6 
100 |a 20080410f20 u y0frey0103 ba 
101 0 |a eng  |2 639-2 
102 |a NL 
135 |a dr||||||||||| 
181 |6 z01  |c txt  |2 rdacontent 
181 1 |6 z01  |a i#  |b xxxe## 
182 |6 z01  |c c  |2 rdamedia 
182 1 |6 z01  |a b 
183 |6 z01  |a ceb  |2 RDAfrCarrier 
200 1 |a Detection and disposal of improvised explosives  |f edited by Hiltmar Schubert, Andrey Kuznetsov 
214 0 |a Dordrecht  |c Springer Netherlands  |c Springer e-books 
214 2 |a Cham  |c Springer Nature  |d [20..] 
225 1 |a NATO Security through Science Series 
327 1 |a DISPOSAL OF IMPROVISED EXPLOSIVES AND -DEVICES  |a DETECTION OF IMPROVISED EXPLOSIVES (IE) AND EXPLOSIVE DEVICES (IED)  |a ON-SITE ANALYSIS OF EXPLOSIVES IN VARIOUS MATRICES  |a IEDS DETECTION BY EXISTING DETECTION TECHNIQUES  |a MICROWAVE SYSTEM FOR INSPECTION OF LUGGAGE AND PEOPLE  |a DEVELOPMENT OF METHODS AND EQUIPMENT FOR DETECTION OF EXPLOSIVES VAPORS IN THE ATMOSPHERE WITH LASER  |a DETECTION OF IMPROVISED EXPLOSIVES DEVICES (IED) BY USING TAGGED NEUTRON BEAMS  |a SENNA PORTABLE SENSOR FOR EXPLOSIVES DETECTION BASED ON NANOSECOND NEUTRON ANALYSIS  |a LIQUID BLAST INHIBITORS: TECHNOLOGY AND APPLICATION  |a RATIONAL DETECTION SCHEMES FOR TATP NATO ADVANCED RESEARCH WORKSHOP  |a PEROXIDE EXPLOSIVES  |a ASSOCIATED PARTICLE IMAGING: AN ENABLING TECHNOLOGY OF DETECTION OF IMPROVISED EXPLOSIVES  |a EXPERIENCE OF APPLICATION OF EXPLOSIVES DETECTORS BY FORENSIC SCIENCE UNITS OF THE MINISTRY OF INTERIOR OF RUSSIAN FEDERATION  |a TECHNICAL MASKING OF IMPROVISED EXPLOSIVE DEVICES  |a RESEARCH AND DEVELOPMENT ON HUMANITARIAN LANDMINE DETECTION SYSTEM BY A COMPACT DISCHARGE-TYPE D-D FUSION NEUTRON SOURCE  |a DETECTION OF NITROAROMATIC DERIVATIVES BY USING REACTIVE ORGANIC THIN LAYERS  |a DETECTION OF EXPLOSIVES BY QUADRUPOLE RESONANCE METHOD: NEW ASPECTS FOR SECURITY  |a CONCEALED EXPLOSIVES DETECTOR BASED ON PORTABLE NEUTRON GENERATOR  |a POSSIBILITIES OF CREATING IMPROVISED EXPLOSIVES AND EXPLOSIVE DEVICES  |a INVESTIGATION OF POSSIBILITY TO DETECT THE DETONATORS OF THE EXPLOSIVE DEVICES BY MEANS OF ED XRF APPROACH  |a EFFECT/BACKGROUND CORRELATIONS IN NANOSECOND NEUTRON ANALYSIS  |a USE OF NON-LINEAR JUNCTION DETECTORS TO ENSURE THE SAFETY OF IED SEARCH 
330 |a These proceedings contain the presentations and results of several discussions of the workshop on Detection and Disposal of Improvised Explosives held in St.-Petersburg, Russia, September 7-9, 2005. This Advanced Research Workshop was the fourth event concerning Detection of Explosives in connection with counter terrorism. After the first three workshops, dealing with vapor and trace detection, electronic nose detection and detection of bulk explosives, this workshop was devoted to the detection of Improvise Explosives including: Methods of detection of Improvised Explosives (IE). Methods of detection of Improvised explosives devices (IED). Disposal and safe handling of ID and IED. The treatment of detection methods may be divided in the following groups: Overview about the different methods; Trace- and vapor detection; Electromagnetic methods; Neutron methods; Laser techniques. Because of different definitions of Improvised Explosives the parti- pants of the workshop agreed after some discussions with the following definition: An Improvised Explosive (IE) can be any chemical compound or mixture capable of an explosive reaction. They are normally easily prepared by a knowledgeable layman under simple conditions. Components of IE are typically inorganic salts containing molecular bound oxygen like nitrates, chlorates or perchlorates etc. or organic compounds with nitro-, nitami- or nitrate-groups or peroxides. Admixtures of military or commercial explosive materials are also used. From the chemical point of view IE can be divided into the following types: Salts containing chemical groups with oxygen (like nitrates, chlorates or perchlorates etc.) in mixtures with combustible substances like carbon-hydrogen compounds 
371 0 |a Accès en ligne pour les établissements français bénéficiaires des licences nationales 
371 0 |a Accès soumis à abonnement pour tout autre établissement 
371 1 |a Conditions particulières de réutilisation pour les bénéficiaires des licences nationales  |c https://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017 
410 | |t NATO Security through Science Series 
452 | |t Detection and Disposal of Improvised Explosives  |b Texte imprimé  |y 9781402048852 
517 | |a Proceedings of the NATO Advanced Research Workshop on Detection and Disposal of Improvised Explosives St. Petersburg, Russia, 7-9 September 2005 
610 1 |a Chemistry 
610 2 |a Physical Chemistry 
610 2 |a Measurement Science, Instrumentation 
615 |a @Chemistry and Materials Science  |n 11644; ZDB-2-CMS  |2 Springer 
615 |a @Chemistry and Materials Science  |n 11644  |2 Springer 
676 |a 541  |v 23 
680 |a QD450-882 
702 1 |3 PPN079722849  |a Schubert  |b Hiltmar  |4 651 
702 1 |3 PPN079722938  |a Kuznecov  |b Aleksej Pavlovič  |4 651 
801 3 |a FR  |b Abes  |c 20231011  |g AFNOR 
801 1 |a DE  |b Springer  |c 20141022  |g AACR2 
856 4 |q PDF  |u https://doi.org/10.1007/978-1-4020-4887-6  |z Accès sur la plateforme de l'éditeur 
856 4 |u https://revue-sommaire.istex.fr/ark:/67375/8Q1-0BTJSHXF-Z  |z Accès sur la plateforme Istex 
856 4 |5 441099901:830928111  |u https://budistant.univ-nantes.fr/login?url=https://doi.org/10.1007/978-1-4020-4887-6 
915 |5 441099901:830928111  |b SPRING4-00172 
930 |5 441099901:830928111  |b 441099901  |j g 
979 |a NUM 
991 |5 441099901:830928111  |a Exemplaire créé en masse par ITEM le 01-10-2024 15:45 
997 |a NUM  |b SPRING4-00172  |d NUMpivo  |e EM  |s d 
998 |a 980207