Abstract

LGSO-90%Lu scintillators are promising new candidates for future positron emission tomography (PET) scanners, offering high light output (90-120% of NaI(Tl) with avalanche photodiode readout) and a range of decay times from τ = 28 ns to τ = 48 ns by varying cerium concentration during the crystal fabrication process. Such diversity of crystal properties makes it possible to create multiple phoswich detector combinations for improving spatial resolution or measuring depth-of-interaction in PET imaging. This investigation was performed to identify the allowable range of decay time differences that can be used in phoswich detector pairs while still achieving acceptable crystal identification accuracy. The various phoswich arrangements were tested using the LabPET digital electronics implemented with different pulse-shape identification algorithms, including least-mean-square (LMS) auto-regressive method and Wiener filter linear optimization method, to obtain the discrimination error rate. Each phoswich pair was tested with three different low-energy thresholds (150, 250 and 350 keV) to help underlining possible limitations. Overall, the Wiener filter yielded better results. As expected, discrimination was more accurate when using the higher energy threshold of 350 keV. Given an arbitrarily chosen maximum identification error rate of 10%, a decay time difference larger than 12 ns was required with the LMS filter and a 250 keV energy threshold. An even larger decay time difference was required if the slowest crystal decay time was greater than 45 ns. With the Wiener filter and a 250 keV threshold, a decay time difference of only 5 ns was found acceptable if the slowest crystal decay time was under 38 ns. In contrast, when the fastest crystal decay time was higher than 38 ns, a decay time difference of 10 ns or more was required. In summary, when using a Wiener filter-based identification algorithm, a relatively wide range of LGSO crystal combinations can be used to achieve accurate crystal identification in phoswich detectors for PET imaging.

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