DocumentCode
2619653
Title
X-ray fluorescence study with pixellated CZT radiation sensors
Author
Meier, Dirk ; Chen, Si ; Wagenaar, Douglas J. ; Mæhlum, Gunnar E. ; Patt, Bradley E. ; Sundal, Bjørn M. ; Wang, Yuchuan ; Tsui, Benjamin M.W.
Author_Institution
Gamma Medica - Ideas, USA
fYear
2008
fDate
19-25 Oct. 2008
Firstpage
1030
Lastpage
1034
Abstract
We are investigating pixellated radiation sensors based on cadmium zinc telluride (CZT) for gamma cameras in pre-clinical and clinical imaging applications. Each pixel allows one to acquire an energy spectrum in the range from 20 keV to 360 keV. We observe an energy resolution of 5.5 keV FWHM (3.9%) at 140 keV which allows one to distinguish different isotopes by their nuclear radiation emission energy or resolve characteristic x-rays to identify materials and locate their positions in the field-of-view. In this work we study x-ray fluorescence (XRF) from three heavy solid metals. The use of XRF has the potential to simplify hardware calibrations and improve the performance in nuclear radiation imaging. Depending on the chemical elements we observe XRF emission with intensity up to 10-% of the incident x-ray flux. The XRF can be used in several ways. Firstly, the energy from characteristic x-rays, e.g., 58.8 keV from tungsten, and a second energy, e.g., 140 keV from 99mTc, allow one to calibrate the energy scale for each pixel using only one acquisition. Secondly, a configuration of objects made of different materials allows one to measure the position of the object by discriminating on the x-ray fluorescence energy. Given a known configuration of objects one could calibrate (align) the pixel positions relative to the object. Thirdly, the energy of emission allows one to identify the chemical element. In this article we compute the relative number of XRF emission from heavy materials and show results with CZT-based pixel sensors.
Keywords
Cadmium compounds; Cameras; Chemical elements; Energy resolution; Fluorescence; Gamma ray detectors; Image sensors; Pixel; X-ray imaging; Zinc compounds; CZT; Cadmium zinc telluride; X-ray fluorescence; XRF; radiation imaging detector;
fLanguage
English
Publisher
ieee
Conference_Titel
Nuclear Science Symposium Conference Record, 2008. NSS '08. IEEE
Conference_Location
Dresden, Germany
ISSN
1095-7863
Print_ISBN
978-1-4244-2714-7
Electronic_ISBN
1095-7863
Type
conf
DOI
10.1109/NSSMIC.2008.4774573
Filename
4774573
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