A New Technology for Fast Two-Dimensional Detection of Proton Therapy Beams

Physics Research International Pub Date : 2012-12-30 DOI:10.1155/2012/714782

R. Hollebeek, M. Newcomer, G. Mayers, B. Delgado, Gaurav Shukla, R. Maughan, D. Dolney

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引用次数: 5

Abstract

The Micromesh Gaseous Structure, or Micromegas, is a technology developed for high count-rate applications in high-energy physics experiments. Tests using a Micromegas chamber and specially designed amplifiers and readout electronics adapted to the requirements of the proton therapy environment and providing both excellent time and high spatial resolution are presented here. The device was irradiated at the Roberts Proton Therapy Center at the University of Pennsylvania. The system was operated with ionization gains between 10 and 200 and in low and intermediate dose-rate beams, and the digitized signal is found to be reproducible to 0.8%. Spatial resolution is determined to be 1.1 mm (1σ) with a 1 ms time resolution. We resolve the range modulator wheel rotational frequency and the thicknesses of its segments and show that this information can be quickly measured owing to the high time resolution of the system. Systems of this type will be extremely useful in future treatment methods involving beams that change rapidly in time and spatial position. The Micromegas design resolves the high dose rate within a proton Bragg peak, and measurements agree with Geant4 simulations to within 5%.

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质子治疗束二维快速检测新技术

微孔气体结构，或Micromegas，是一种用于高能物理实验中高计数率应用的技术。本文介绍了使用micromega气体室和专门设计的放大器和读出电子设备进行的测试，这些设备适应质子治疗环境的要求，并提供了出色的时间和高空间分辨率。该装置在宾夕法尼亚大学的罗伯茨质子治疗中心进行辐照。该系统的电离增益在10 ~ 200之间，在低剂量率和中剂量率光束中运行，发现数字化信号的再现率为0.8%。空间分辨率为1.1 mm (1σ)，时间分辨率为1ms。我们解析了距离调制器轮的旋转频率和其段的厚度，并表明由于系统的高时间分辨率，这些信息可以快速测量。这种类型的系统在涉及光束在时间和空间位置快速变化的未来处理方法中将非常有用。Micromegas设计解决了质子布拉格峰内的高剂量率，测量结果与Geant4模拟结果一致，误差在5%以内。

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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Physics Research International

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