用于瞬时伽马成像的纯切伦科夫发射器中的切伦科夫光发射

IF 4.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

IEEE Transactions on Radiation and Plasma Medical Sciences Pub Date : 2023-10-13 DOI:10.1109/TRPMS.2023.3323838

L. Rebolo;C. Trigila;J. Ellin;P. M. Mendes Correia;A. L. Silva;J. Veloso;S. St. James;E. Roncali;G. Ariño-Estrada

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引用次数: 0

摘要

质子治疗中的质子量程验证（PRV）采用瞬时伽马射线检测，这是一种前景广阔但极具挑战性的方法。高计数率、1 到 7 兆电子伏特的能量以及强大的背景使这类粒子的探测变得更加复杂。在这项工作中，研究了纯切伦科夫发射体溴化铊、氯化铊（TlCl）和 PbF2 中的瞬发伽马产生的切伦科夫光。这些晶体中的切伦科夫光可以提供非常快的定时信号，有可能实现非常高的计数率，并能区分瞬时伽马和背景信号。模拟的晶体面积为 1/times 1$ cm2，厚度为 1、2、3 和 4 cm。针对 2.3、4.4 和 6.1-MeV 的瞬时伽马对不同的光电探测器（PD）配置进行了研究。在所有能量、探测器尺寸和光电探测器效率建模条件下，TlCl 检测到的切伦科夫光子数量最多。在模拟的最高前伽马能量下，使用假设的高性能 PD，氯化铂产生了大约 250 个切伦科夫探测光子。结果表明，1 厘米×1 厘米×1 厘米的晶块具有更高的单位体积瞬发伽马探测效率，每个事件探测到的切伦科夫光子平均数量也相当。

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Cherenkov Light Emission in Pure Cherenkov Emitters for Prompt Gamma Imaging

Proton range verification (PRV) in proton therapy by means of prompt-gamma detection is a promising but challenging approach. High-count rates, energies ranging between 1 and 7 MeV, and a strong background complicate the detection of such particles. In this work, the Cherenkov light generated by prompt-gammas in the pure Cherenkov emitters thallium bromide, thallium chloride (TlCl) and PbF2 was studied. Cherenkov light in these crystals can provide a very fast timing signal with the potential to achieve very high-count rates and to discern between prompt-gammas and background signals. Crystals of

$1\times 1$

cm2 and thicknesses of 1, 2, 3, and 4 cm were simulated. Different photodetector (PD) configurations were studied for 2.3, 4.4, and 6.1-MeV prompt-gammas. TlCl achieved the greatest number of detected Cherenkov photons for all energies, detector dimensions, and PD efficiency modeling. For the highest-prompt-gamma energy simulated, TlCl yielded approximately 250 Cherenkov detected photons, using a hypothetical high-performance PD. Results show the crystal blocks of 1 cm

$\times1$

cm have greater prompt-gamma detection efficiency per volume and a comparable average number of detected Cherenkov photons per event.

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来源期刊

IEEE Transactions on Radiation and Plasma Medical Sciences RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

8.00

自引率

18.20%

发文量

109