Dieter Neimke scite author profile

Dieter Neimke

5Publications

61Citation Statements Received

4Citation Statements Given

How they've been cited

136

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Bundeskriminalamt

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A Versatile Technique for the Investigation of Gunshot Residue Patterns on Fabrics and Other Surfaces: m-XRF

et al. 2006

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With heavy-metal-free ammunitions becoming more and more popular, it is necessary to find methods to visualize patterns of those elements in gunshot residues (GSRs) that are not accessible by chemographic coloring tests. The recently introduced millimeter-X-ray fluorescence analysis (m-XRF) spectrometer Spectro Midex M offers an easy way to record mappings of GSRs containing such elements in order to determine shooting distances as well as the general composition of these particles. A motorized stage enables samples of a maximum size of 20 x 20 cm to be investigated, like fabric, clothes, adhesive tapes (Filmolux films), and polyvinylalcohol gloves of shooter's hands. Human tissues can be measured using a Peltier-cooled specimen holder that is mounted onto the stage. As the spot size of the exiting X-rays lies in the millimeter range, which is adequate for the assessment of the residue patterns for shooting distance determination, a significant reduction in measurement time is achieved compared with mu-XRF methods. Test shots with heavy-metal-free ammunitions were performed on different target materials, like pork skin and fabric, and the elemental distributions of Ti, K, and Ga were determined. In order to show the capability of the spectrometer for conventional lead ammunitions as well, a shot series of 5-100 cm shooting distance and an adhesive tape of a shooter's hand were investigated analogously. A comparison of several methods applied in GSR investigation shows the advantages of the m-XRF method.

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Shooting distance determination by m-XRF—Examples on spectra interpretation and range estimation

Latzel¹,

Neimke²,

Schumacher³

et al. 2012

Forensic Science International

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Investigating airborne GSR particles by the application of impactor technology

et al. 2018

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Discrimination of SINTOX® GSR against environmental particles and its automated investigation by SEM/EDS

et al. 2021

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Development, design, and realization of a proficiency test for the Forensic Determination of Shooting Distances – FDSD 2015

et al. 2016

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Dieter Neimke

A Versatile Technique for the Investigation of Gunshot Residue Patterns on Fabrics and Other Surfaces: m-XRF

Shooting distance determination by m-XRF—Examples on spectra interpretation and range estimation

Investigating airborne GSR particles by the application of impactor technology

Discrimination of SINTOX® GSR against environmental particles and its automated investigation by SEM/EDS

Development, design, and realization of a proficiency test for the Forensic Determination of Shooting Distances – FDSD 2015

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