Studying Spatial Resolution of CZT Detectors Using Sub-Pixel Positioning for SPECT

Studying Spatial Resolution of CZT Detectors Using Sub-Pixel Positioning for SPECT

CZT detectors are the basic building block of a variety of new SPECT systems. Their modularity allows adapting system architecture to specific applications such as cardiac, breast, brain or small animal imaging. In semiconductors, a high number of electron-hole pairs is produced by a single interact...

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Veröffentlicht in:IEEE transactions on nuclear science 2014-10, Vol.61 (5), p.2559-2566
Hauptverfasser: Montemont, Guillaume, Lux, Silvere, Monnet, Olivier, Stanchina, Sylvain, Verger, Loick
Format: Artikel
Sprache:eng
Schlagworte:
Anodes
Capacitance
Detectors
Gamma-ray detectors
Noise
nuclear imaging
radiation imaging
semiconductor radiation detectors
Single photon emission computed tomography
Spatial resolution
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Zusammenfassung:CZT detectors are the basic building block of a variety of new SPECT systems. Their modularity allows adapting system architecture to specific applications such as cardiac, breast, brain or small animal imaging. In semiconductors, a high number of electron-hole pairs is produced by a single interaction. This direct conversion process allows better energy and spatial resolutions than usual scintillation detectors based on NaI(Tl). However, it remains often unclear if SPECT imaging can really benefit of that performance gain. We investigate the system performance of a detection module, which is based on 5 mm thick CZT with a segmented anode having a 2.5 mm pitch by simulation and experimentation. This pitch allows an easy assembly of the crystal on the readout board and limits the space occupied by electronics without significantly degrading energy and spatial resolution.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2014.2356293