Title :
Synchrotron Tests of a 3D Medipix2 X-Ray Detector
Author :
Pennicard, David ; Marchal, Julien ; Fleta, Celeste ; Pellegrini, Giulio ; Lozano, Manuel ; Parkes, Chris ; Tartoni, Nicola ; Barnett, Damien ; Dolbnya, Igor ; Sawhney, Kawal ; Bates, Richard ; O´Shea, Val ; Wright, Victoria
Author_Institution :
Dept. of Phys. & Astron., Univ. of Glasgow, Glasgow, UK
Abstract :
Three-dimensional (3D) photodiode detectors offer advantages over standard planar photodiodes in a range of applications, including X-ray detection for synchrotrons and medical imaging. The principal advantage of these sensors for X-ray imaging is their low charge sharing between adjacent pixels, which could improve spatial and spectral resolution. A ´double-sided´ 3D detector has been bonded to a Medipix2 single-photon-counting readout chip, and tested in a monochromatic X-ray beam at the Diamond synchrotron. Tests of the 3D detector´s response spectrum and its Line Spread Function have shown that it has substantially lower charge sharing than a standard planar Medipix2 sensor. Additionally, the 3D detector was used to image diffraction rings produced by a powdered silicon sample, demonstrating the detector´s use in a standard synchrotron experiment.
Keywords :
X-ray detection; X-ray imaging; photodiodes; readout electronics; silicon radiation detectors; 3D Medipix2 X-ray detector; X-ray imaging; image diffraction rings; line spread function; medical imaging; monochromatic X-ray beam; powdered silicon sample; single-photon-counting readout chip; spectral resolution; synchrotron X-ray detection; three-dimensional photodiode detectors; Biomedical imaging; Charge-coupled image sensors; Photodiodes; Pixel; Spatial resolution; Synchrotrons; Testing; X-ray detection; X-ray detectors; X-ray imaging; Position sensitive detectors; X-ray detectors; X-ray imaging; silicon radiation detectors; solid state detectors; synchrotron radiation;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2009.2037746
