Application of X-ray fluorescence in forensic archeology: A review

IF 1.5 4区物理与天体物理 Q3 SPECTROSCOPY X-Ray Spectrometry Pub Date : 2024-02-12 DOI:10.1002/xrs.3421

Mehak Manhas, Anjali Tomar, Maanvendra Tiwari, Shweta Sharma

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Abstract

Forensic Archeology is the application of techniques and principles of archeology in the pursuit of examining a crime or incident with legal interest. A wide range of analytical studies are employed in examining archeological remains. X-ray fluorescence (XRF) spectroscopy remains to be one of the most used techniques for rapid examination of trace evidence typically found on an archeological crime scene. Studies of interest generally include finding trace elements from various sources, samples, and different environmental conditions and distinguishing whether a skeletal remains under examination is human, animal, or marine species. The present study has been designed to focus on the application of XRF in archeological and anthropological evidences such as the examination of human skeletal and dental remains, determination of species, examination of soil, ceramics, paintings, coins, and so on. The advantage of XRF as derived from the reported literature is that it is a non-destructive technique making it ideal for forensic analysis and in situ examination. The study also discusses the factors affecting forensic investigations of archeological evidences and the limitations of XRF.

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X 射线荧光在法医考古学中的应用：综述

法证考古学是应用考古学的技术和原则来研究具有法律意义的犯罪或事件。在检查考古遗物时，会采用多种分析研究方法。X 射线荧光 (XRF) 光谱法仍然是快速检查考古犯罪现场痕量证据最常用的技术之一。感兴趣的研究一般包括从不同来源、样本和不同环境条件中寻找微量元素，以及区分所检查的遗骸是人类、动物还是海洋物种。本研究旨在关注 XRF 在考古学和人类学证据中的应用，如检查人类骨骼和牙齿遗骸、确定物种、检查土壤、陶瓷、绘画、钱币等。从报告的文献中可以看出，XRF 的优势在于它是一种非破坏性技术，因此非常适合法医分析和现场检查。研究还讨论了影响考古证据法证调查的因素以及 XRF 的局限性。

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来源期刊

X-Ray Spectrometry 物理-光谱学

CiteScore

3.10

自引率

8.30%

发文量

审稿时长

6-12 weeks

期刊介绍： X-Ray Spectrometry is devoted to the rapid publication of papers dealing with the theory and application of x-ray spectrometry using electron, x-ray photon, proton, γ and γ-x sources. Covering advances in techniques, methods and equipment, this established journal provides the ideal platform for the discussion of more sophisticated X-ray analytical methods. Both wavelength and energy dispersion systems are covered together with a range of data handling methods, from the most simple to very sophisticated software programs. Papers dealing with the application of x-ray spectrometric methods for structural analysis are also featured as well as applications papers covering a wide range of areas such as environmental analysis and monitoring, art and archaelogical studies, mineralogy, forensics, geology, surface science and materials analysis, biomedical and pharmaceutical applications.