Print Email Facebook Twitter Improving the Time Resolution of TOF-PET Detectors by Double-Sided Readout Title Improving the Time Resolution of TOF-PET Detectors by Double-Sided Readout Author Seifert, S. Schaart, D.R. Faculty Applied Sciences Department RST/Radiation, Science and Technology Date 2015-02-06 Abstract State-of-the-art scintillation detectors for time-of-flight positron emission tomography (TOF-PET) typically employ scintillation crystals with a high aspect ratio (e.g. 4 ×4 ×22 mm3) read out on one of the small crystal surfaces. This single-sided readout (SSR) geometry may be unfavorable in terms of the coincidence resolving time (CRT) that can be achieved because of its effect on the light collection efficiency; the spread in the scintillation photon propagation times; and depth-of-interaction (DOI) related, variable detection delays. In this work it is investigated to which extent these effects can be mitigated by applying a fast photosensor on each of the small crystal surfaces. Such double-sided readout (DSR) has been introduced previously to counter the issue of DOI-related parallax errors. For the present purpose, we used Hamamatsu MPPC-S10362-33-050 C silicon photomultipliers (SiPMs) optically coupled to LSO:Ce,Ca scintillators. For polished 3 ×3 ×20 mm3 crystals with SSR, CRT values of 184 ±6 ps FWHM and 215 ±6 ps FWHM were determined for irradiation head-on and from the side, respectively. In this case, DSR improved the CRT measured under side irradiation to 174 ±6 ps FWHM. A much more substantial improvement was observed for equally sized crystals having etched side surfaces. For these crystals the CRT changed from 358 ±5 ps FWHM (head-on irradiation) and 343 ±6 FWHM (side irradiation) with SSR to 180 ±5 ps FWHM with DSR (side irradiation). These values are compared with the time resolution of detectors employing LSO:Ce,Ca crystals with a size of 3 ×3 ×5 mm3 ( CRT = 121 ±2 ps FWHM) and 3 ×3 ×10 mm3 ( CRT = 162 ±9 ps FWHM and CRT = 183 ±3 ps for polished and etched crystals, respectively). Subject LSOscintillation detectorstime resolutiontime-of-flight PET To reference this document use: http://resolver.tudelft.nl/uuid:660a6eaa-9455-4cc6-9634-0469a995b960 DOI https://doi.org/10.1109/TNS.2014.2368932 Publisher IEEE ISSN 0018-9499 Source IEEE Transactions on Nuclear Science, 62 (1), 2015 Part of collection Institutional Repository Document type journal article Rights 2014 IEEE Files PDF Schaart_2015.pdf 1.13 MB Close viewer /islandora/object/uuid:660a6eaa-9455-4cc6-9634-0469a995b960/datastream/OBJ/view