DocumentCode
1096900
Title
Techniques for removing nonuniform background in coded-aperture imaging on the energetic X-ray imaging telescope experiment
Author
Covault, C.E. ; Grindlay, J.E. ; Manandhar, R.P. ; Braga, J.
Author_Institution
Harvard-Smithsonian Center for Astrophys., Cambridge, MA, USA
Volume
38
Issue
2
fYear
1991
fDate
4/1/1991 12:00:00 AM
Firstpage
591
Lastpage
596
Abstract
It is found that the subtractive flat field technique for nonuniform background illumination is generally effective at removing background systematics for stationary mask experiments such as the energetic X-ray imaging experiment. The time dependence of intensity and the two-dimensional shape of the background detector image during the flight are explored. A flat field image is constructed from observations where X-ray sources were absent from the field of view. It is shown that this technique can successfully reduce RMS fluctuations to within a few percent of ideal Poisson statistics. The quality of the flat field does not appear to be a strong function of radius and can be used effectively out to the edge of the detector to remove the strong background ring
Keywords
X-ray astronomy; astronomical telescopes; Poisson statistics; RMS fluctuations; astronomy; background detector image; coded-aperture imaging; energetic X-ray imaging telescope experiment; intensity; nonuniform background illumination; stationary mask experiments; strong background ring; subtractive flat field technique; time dependence; two-dimensional shape; Apertures; Background noise; Calibration; Image reconstruction; Lighting; NASA; Optical imaging; Position sensitive particle detectors; Telescopes; X-ray imaging;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/23.289362
Filename
289362
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