DocumentCode
1497439
Title
Improvement of the position resolution of the CCD for X-ray use
Author
Yoshita, K. ; Tsunemi, H. ; Miyata, E. ; Gendreau, K.C. ; Bautz, M.W.
Author_Institution
Dept. of Earth & Space Sci., Osaka Univ., Japan
Volume
46
Issue
2
fYear
1999
fDate
4/1/1999 12:00:00 AM
Firstpage
100
Lastpage
106
Abstract
The authors report here experimental results relating X-ray interaction location and event splitting. The X-ray interaction location can be localized at subpixel scale using the mesh technique. The authors found that the center of gravity of the split event is well-correlated with the X-ray interaction location. They analyzed the data using two models for the charge cloud shape: one is the rectangular model and the other is the Gaussian model. Although the authors could not distinguish between these models, they measured a root mean square charge cloud size of 1 to 2 μm for X-rays of Y-L (1.9 keV), Ag-L (3.0 keV), and Ti-K (4.5 keV). When the X-rays enter near the pixel boundary, the charge splits into adjacent pixels, allowing determination of the X-ray interaction location with an accuracy of 1.5 to 2.2 μm. The authors, therefore, expect that the X-ray CCD can function as an X-ray imager with subpixel resolution, which will be especially useful in applications involving very high spatial resolution optics
Keywords
X-ray detection; charge-coupled devices; position sensitive particle detectors; 1.9 keV; 3 keV; 4.5 keV; Ag; Ag-L; CCD; Gaussian model; Ti; Ti-K; X-ray imager; X-ray interaction location; Y; Y-L; center of gravity; charge cloud shape; event splitting; mesh technique; position resolution; root mean square charge cloud size; split event; subpixel resolution; Charge coupled devices; Charge measurement; Clouds; Current measurement; Data analysis; Gravity; Shape; Size measurement; Spatial resolution; X-ray imaging;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/23.757195
Filename
757195
Link To Document