Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Microtomography with photon counting detectors: improving the quality of tomographic reconstruction by voxel-space oversampling

NázevTitle
Microtomography with photon counting detectors: improving the quality of tomographic reconstruction by voxel-space oversamplingMicrotomography with photon counting detectors: improving the quality of tomographic reconstruction by voxel-space oversampling
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
J. Dudák, J. Žemlička, J. Karch, Z Heřmanová, J Kvaček, F. Krejčí
DOIDOI
10.1088/1748-0221/12/01/C01060
Časopis / citaceJournal / citation
Journal of Instrumentation. 2017, 12(1), ISSN 1748-0221.
RokYear
2017
JazykLanguage
eng
WoSWoS
000395768300060
ScopusScopus
2-s2.0-85012069953
RIVRIV
RIV/68407700:21460/17:00308631!RIV18-GA0-21460___
ProjektProject
Nedestruktivní metody jako nástroj pro studium diversity křídových rostlinNon-destructive methods as a tool for studies on diversity of Cretaceous fossil plants

AbstraktAbstract

Photon counting detectors Timepix are known for their unique properties enabling X-ray imaging with extremely high contrast-to-noise ratio. Their applicability has been recently further improved since a dedicated technique for assembling large area Timepix detector arrays was introduced. Despite the fact that the sensitive area of Timepix detectors has been significantly increased, the pixel pitch is kept unchanged (55 microns). This value is much larger compared to widely used and popular X-ray imaging cameras utilizing scintillation crystals and CCD-based read-out. On the other hand, photon counting detectors provide steeper point-spread function. Therefore, with given effective pixel size of an acquired radiography, Timepix detectors provide higher spatial resolution than X-ray cameras with scintillation-based devices unless the image is affected by penumbral blur. In this paper we take an advance of steep PSF of photon counting detectors and test the possibility to improve the quality of computed tomography reconstruction using finer sampling of reconstructed voxel space. The achieved results are presented in comparison with data acquired under the same conditions using a commercially available state-of-the-art CCD X-ray camera.

Photon counting detectors Timepix are known for their unique properties enabling X-ray imaging with extremely high contrast-to-noise ratio. Their applicability has been recently further improved since a dedicated technique for assembling large area Timepix detector arrays was introduced. Despite the fact that the sensitive area of Timepix detectors has been significantly increased, the pixel pitch is kept unchanged (55 microns). This value is much larger compared to widely used and popular X-ray imaging cameras utilizing scintillation crystals and CCD-based read-out. On the other hand, photon counting detectors provide steeper point-spread function. Therefore, with given effective pixel size of an acquired radiography, Timepix detectors provide higher spatial resolution than X-ray cameras with scintillation-based devices unless the image is affected by penumbral blur. In this paper we take an advance of steep PSF of photon counting detectors and test the possibility to improve the quality of computed tomography reconstruction using finer sampling of reconstructed voxel space. The achieved results are presented in comparison with data acquired under the same conditions using a commercially available state-of-the-art CCD X-ray camera.