English

X-ray Fluorescence Sectioning

Medical Physics 2012-10-29 v1 Optics

Abstract

In this paper, we propose an x-ray fluorescence imaging system for elemental analysis. The key idea is what we call "x-ray fluorescence sectioning". Specifically, a slit collimator in front of an x-ray tube is used to shape x-rays into a fan-beam to illuminate a planar section of an object. Then, relevant elements such as gold nanoparticles on the fan-beam plane are excited to generate x-ray fluorescence signals. One or more 2D spectral detectors are placed to face the fan-beam plane and directly measure x-ray fluorescence data. Detector elements are so collimated that each element only sees a unique area element on the fan-beam plane and records the x-ray fluorescence signal accordingly. The measured 2D x-ray fluorescence data can be refined in reference to the attenuation characteristics of the object and the divergence of the beam for accurate elemental mapping. This x-ray fluorescence sectioning system promises fast fluorescence tomographic imaging without a complex inverse procedure. The design can be adapted in various ways, such as with the use of a larger detector size to improve the signal to noise ratio. In this case, the detector(s) can be shifted multiple times for image deblurring.

Keywords

Cite

@article{arxiv.1210.7198,
  title  = {X-ray Fluorescence Sectioning},
  author = {Wenxiang Cong and Ge Wang},
  journal= {arXiv preprint arXiv:1210.7198},
  year   = {2012}
}
R2 v1 2026-06-21T22:28:23.715Z