Paper Detail

Material identification using laboratory X-ray beam tracking: quantitativeness and signal-to-noise ratio requirements

Sumera Rehman, Ashkan Ajeer, Connor Darling, Marco Endrizzi, Alessandro Olivo, Silvia Cipiccia

arxiv Score 5.2

Published 2026-06-23 · First seen 2026-06-24

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Abstract

Simultaneous structural and elemental characterisation of a specimen in a non-destructive manner is an instrumental approach with applications in a variety of fields including energy materials, cultural heritage and life sciences. This is routinely performed at synchrotron facilities, e.g. by combining X-ray imaging and X-ray fluorescence. In this work we describe an approach based on a monochromatic implementation of X-ray beam tracking (XBT), a multimodal imaging technique compatible with standard laboratory sources. Monochromatic XBT gives simultaneous access to quantitative absorption and phase properties of the sample, which are related to the atomic number and the electron density respectively: their combination allows for material discrimination. Here we focus on investigating the effect of the signal-to noise ratio on the quantitativeness of the results, hence on the elemental identification. We present an XBT experiment performed using a standard X-ray laboratory source to identify the composition of three different test samples made out of Ag, Fe and Cu. These specific materials were selected as relevant to archaeological studies e.g. when specimen buried for centuries are in contact with the surrounding soil containing traces of these metals. We review the results, current limitations and provide guidance for future developments for structural and elemental characterisation in a laboratory setting.

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BibTeX

@article{rehman2026material,
  title = {Material identification using laboratory X-ray beam tracking: quantitativeness and signal-to-noise ratio requirements},
  author = {Sumera Rehman and Ashkan Ajeer and Connor Darling and Marco Endrizzi and Alessandro Olivo and Silvia Cipiccia},
  year = {2026},
  abstract = {Simultaneous structural and elemental characterisation of a specimen in a non-destructive manner is an instrumental approach with applications in a variety of fields including energy materials, cultural heritage and life sciences. This is routinely performed at synchrotron facilities, e.g. by combining X-ray imaging and X-ray fluorescence. In this work we describe an approach based on a monochromatic implementation of X-ray beam tracking (XBT), a multimodal imaging technique compatible with stan},
  url = {https://arxiv.org/abs/2606.24753},
  keywords = {physics.app-ph},
  eprint = {2606.24753},
  archiveprefix = {arXiv},
}

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