Title :
The DLED Algorithm for Timing Measurements on Large Area SiPMs Coupled to Scintillators
Author :
Gola, Alberto ; Piemonte, Claudio ; Tarolli, Alessandro
Author_Institution :
Centro per i Mater. e i Microsistemi, Fondazione Bruno Kessler (FBK-IRST), Povo di Trento, Italy
fDate :
4/1/2012 12:00:00 AM
Abstract :
One of the main factors limiting the precision of timing measurements with silicon photomultipliers coupled to scintillators is the dark noise, especially in the case of large devices. In order to cope with it, a suitable signal processing should be employed. The method we propose is called differential leading edge discriminator (DLED) and allows an effective compensation of the baseline fluctuations due to the dark counts of the detector. In this paper we show a comparison between the measurements obtained using the traditional Leading Edge Discriminator technique and the DLED. The improvement we observe is remarkable. Combining this baseline correction algorithm with low temperatures, we were able to reach a coincidence resolving time of 180 ps FWHM, using 4 mm × 4 mm SiPMs produced at FBK coupled to 3.8 mm × 3.8 mm × 5 mm Teflon-wrapped LYSO crystals.
Keywords :
nuclear electronics; photomultipliers; semiconductor diodes; signal processing; solid scintillation detectors; DLED algorithm; Teflon wrapped LYSO crystals; baseline correction algorithm; baseline fluctuation compensation; dark noise; detector dark counts; differential leading edge discriminator; scintillator coupled large area SiPM; scintillator coupled silicon photomultipliers; signal processing; size 3.8 mm; size 4 mm; size 5 mm; timing measurement precision; timing measurements; Detectors; Image edge detection; Jitter; Light emitting diodes; Noise; Temperature measurement; Timing; LYSO scintillator; TOF-PET; silicon photomultiplier; time of arrival estimation;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2012.2187927
