Investigation of Analog and Digital Signal Processing Chains for a Prototype TOF-PET System with 100 ps Coincidence Time Resolution

S. Pourashraf, A. Gonzalez-Montoro, M. S. Lee, J. Cates, Jun Yeon Won, Zhixiang Zhao, Jae Sung Lee, C. Levin
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引用次数: 3

Abstract

To achieve < 100 ps Coincidence Time Resolution (CTR) and a > 2 - fold improvement in reconstructed image Signal to Noise Ratio (SNR) compared to state-of-the-art TOF-PET scanners, we have evaluated CTR performance of three different mixed-signal front-end electronic configurations. The proposed TOF-PET detector elements are based on two 3×3×10 mm3 “LGSO” crystal segments for a 20 mm effective length and side-coupled to arrays of 3×3 mm2 SiPMs. The front-end readouts were based on: a) high speed RF amplifiers; b) NINO ASIC as discriminator, and; c) combination of both RF+NINO. Coincidence data were experimentally acquired using the 10 mm length crystals, a low jitter FPGA-based TDC, several SiPM bias voltages, and NINO thresholds, achieving CTR value of 103.3 ± 1.5 ps FWHM using configuration (c). This value is much improved compared to the results achieved using configurations (a) and (b).
具有100ps符合时间分辨率的TOF-PET原型系统模拟和数字信号处理链的研究
与最先进的TOF-PET扫描仪相比,为了实现< 100 ps的符合时间分辨率(CTR)和> 2倍的重建图像信噪比(SNR)改善,我们评估了三种不同的混合信号前端电子配置的CTR性能。提出的TOF-PET检测器元件基于两个有效长度为20 mm的3×3×10 mm3“LGSO”晶体段,并侧耦合到3×3 mm2 sipm阵列。前端读出基于:a)高速射频放大器;b) NINO ASIC作为鉴别器;c) RF+NINO的组合。采用10mm长度的晶体、低抖动的fpga TDC、几个SiPM偏置电压和NINO阈值,实验获得了符合数据,使用配置(c)获得了103.3±1.5 ps FWHM的CTR值。与使用配置(a)和(b)获得的结果相比,该值大大提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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