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2
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3
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High-frequency SiPM readout advances measured coincidence time resolution limits in TOF-PET.高频硅光电倍增管读出技术提高了飞行时间正电子发射断层成像的符合时间分辨率极限。
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用于具有100皮秒符合时间分辨率的原型飞行时间正电子发射断层扫描(TOF-PET)系统的电子信号处理链研究。

Investigation of Electronic Signal Processing Chains for a Prototype TOF-PET System With 100-ps Coincidence Time Resolution.

作者信息

Pourashraf Shirin, Gonzalez-Montoro Andrea, Lee Min Sun, Cates Joshua W, Won Jun Yeon, Lee Jae Sung, Levin Craig S

机构信息

Department of Radiology at Stanford University, Stanford, CA 94305, USA.

Nuclear Emergency & Environmental Protection Division, Korea Atomic Energy Research Institute, Daejeon, Republic of Korea.

出版信息

IEEE Trans Radiat Plasma Med Sci. 2022 Jul;6(6):690-696. doi: 10.1109/trpms.2021.3124756. Epub 2021 Nov 2.

DOI:10.1109/trpms.2021.3124756
PMID:36060422
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9432859/
Abstract

We have evaluated CTR performance of four different mixed-signal front-end electronic readout configurations with the goal to achieve 100 picoseconds (ps) coincidence time resolution (CTR). The proposed TOF-PET detector elements are based on two 3 × 3 × 10 mm "fast LGSO" crystal segments, side-coupled to linear arrays of 3 × 3 mm silicon photomultipliers (SiPMs), to form a total crystal length of 20 mm. We studied multiple configurations and components for the front-end readout: 1) high speed radio frequency (RF) amplifiers; 2) an ASIC-based discriminator; 3) combination of RF amplifier, balun transformer, and discriminator ASIC; and 4) combination of balun transformer, and discriminator ASIC. Using two 3 × 3 × 10 mm fast LGSO crystals side coupled to a linear array of three SiPMs, coincidence data were experimentally acquired for each readout configuration in combination with a low jitter field programmable gate array (FPGA)-based time to digital converter (TDC). After evaluating timing performance of the three readout schemes, the best CTR value of 99.4 ± 1.9 ps FWHM was achieved for configuration (3), which is more than 20 ps better than the results achieved using configurations (1) and (2).

摘要

我们评估了四种不同的混合信号前端电子读出配置的符合时间分辨率(CTR)性能,目标是实现100皮秒(ps)的符合时间分辨率。所提出的飞行时间正电子发射断层扫描(TOF-PET)探测器单元基于两个3×3×10毫米的“快速LGSO”晶体段,侧面耦合到3×3毫米硅光电倍增管(SiPM)的线性阵列,形成20毫米的总晶体长度。我们研究了前端读出的多种配置和组件:1)高速射频(RF)放大器;2)基于专用集成电路(ASIC)的鉴别器;3)RF放大器、平衡-不平衡变压器和鉴别器ASIC的组合;4)平衡-不平衡变压器和鉴别器ASIC的组合。使用两个3×3×10毫米的快速LGSO晶体侧面耦合到三个SiPM的线性阵列,结合基于低抖动现场可编程门阵列(FPGA)的时间数字转换器(TDC),对每种读出配置实验采集符合数据。在评估了三种读出方案的定时性能后,配置(3)实现了99.4±1.9 ps半高宽(FWHM)的最佳CTR值,比使用配置(1)和(2)获得的结果好20 ps以上。