Journal
JOURNAL OF X-RAY SCIENCE AND TECHNOLOGY
Volume 18, Issue 4, Pages 429-441Publisher
IOS PRESS
DOI: 10.3233/XST-2010-0273
Keywords
Synchrotron radiation; X-ray imaging; radioscopy; CMOS; cineradiography; microtomography; scintillator; X-ray phase contrast; X-ray detector; real time experiment; digital radiography
Categories
Funding
- ESRF
- Universitat Tubingen
- ANKA
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Time-resolved imaging with penetrating radiation has an outstanding scientific value but its realisation requires a high density of photons as well as corresponding fast X-ray image detection schemes. Bending magnets and insertion devices of third generation synchrotron light sources offer a polychromatic photon flux density which is high enough to perform hard X-ray imaging with a spatio-temporal resolution up to the mu m-mu s range. Existing indirect X-ray image detectors commonly used at synchrotron light sources can be adapted for fast image acquisition by employing CMOS-based digital high speed cameras already available on the market. Selected applications from life sciences and materials research underline the high potential of this high-speed hard X-ray microimaging approach.
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