利用ATLAS IBL像素探测器测量质子治疗设施中的光束能量

Q3 Physics and Astronomy Instruments Pub Date : 2022-11-29 DOI:10.3390/instruments6040080
Isabelle Schilling, C. M. Bäcker, C. Bäumer, C. Behrends, M. Hötting, Jana Hohmann, K. Kröninger, B. Timmermann, J. Weingarten
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引用次数: 0

摘要

在质量保证(QA)框架内精确测量光束范围是质子治疗机临床使用的要求。传统上使用的探测器大多通过测量质子的深度剂量分布来估计距离。在本文中,我们在大型强子对撞机的高辐射环境中,使用了为单个粒子跟踪而设计的像素探测器。探测器测量单个质子在传感器中沉积的能量。由于读出芯片的动态能量范围有限,研究了几种测量质子能量或范围的方法。在探测器上放置一个楼梯模型,以执行相对于NIST PSTAR停止功率数据库的能量校准。此外,利用平行于束流轴的探测器进行轨迹长度测量,以研究单个质子沿轨迹的每像素线性能量传递(LET)。在这项原理证明研究中,我们证明了这种辐射硬度检测器可以成功地用于确定距离移位后能量低于44 MeV的质子撞击传感器的初始质子能量。很明显,临床应用需要提高读出芯片的能量分辨率。
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Measuring the Beam Energy in Proton Therapy Facilities Using ATLAS IBL Pixel Detectors
The accurate measurement of the beam range in the frame of quality assurance (QA) is a requirement for clinical use of a proton therapy machine. Conventionally used detectors mostly estimate the range by measuring the depth dose distribution of the protons. In this paper, we use pixel detectors designed for individual particle tracking in the high-radiation environment of the ATLAS experiment at LHC. The detector measures the deposited energy in the sensor for individual protons. Due to the limited dynamic energy range of the readout chip, several ways to measure the proton energy or range are examined. A staircase phantom is placed on the detector to perform an energy calibration relative to the NIST PSTAR stopping power database. In addition, track length measurements are performed using the detector aligned parallel with the beam axis to investigate the Linear Energy Transfer (LET) per pixel along the trajectory of individual protons. In this proof-of-principle study, we show that this radiation hardness detector can successfully be used to determine the initial proton energy for protons impinging on the sensor with an energy below 44 MeV after the range shifters. It becomes clear that an improvement of the energy resolution of the readout chip is required for clinical use.
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来源期刊
Instruments
Instruments Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
0.00%
发文量
70
审稿时长
11 weeks
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