Title :
X-Ray Fluorescence Emission Tomography (XFET) With Novel Imaging Geometries— A Monte Carlo Study
Author :
Meng, Ling Jian ; Li, Nan ; Riviere, Patrick J La
Author_Institution :
Dept. of Nucl. Plasma & Radiol. Eng., Univ. of Illinois at Urbana-Champaign, Urbana, IL, USA
Abstract :
This paper presents a feasibility study for using two new imaging geometries for synchrotron X-ray fluorescence emission tomography (XFET) applications. In the proposed approaches, the object is illuminated with synchrotron X-ray beams of various cross-sectional dimensions. The resultant fluorescence photons are detected by high-resolution imaging-spectrometers coupled to collimation apertures. To verify the performance benefits of the proposed methods over the conventional line-by-line scanning approach, we have used both Monte Carlo simulations and an analytical system performance index to compare several different imaging geometries. This study has demonstrated that the proposed XFET approach could lead to a greatly improved imaging speed, which is critical for making XFET a practical imaging modality for a wide range of applications.
Keywords :
Monte Carlo methods; X-ray apparatus; X-ray fluorescence analysis; collimators; emission tomography; synchrotron radiation; Monte Carlo methods; X-ray fluorescence emission tomography; XFET cross sectional dimension; collimation apertures; fluorescence photons; high resolution imaging spectrometers; imaging geometries; imaging speed; performance benefit; synchrotron XFET; Apertures; Image reconstruction; Synchrotron radiation; Tomography; X-ray imaging; Synchrotron radiation; X-ray fluorescence emission tomography (XFET);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2011.2167632
