Large area polycrystalline diamond detectors for online hadron therapy beam tagging applications

2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD) Pub Date : 2016-10-29 DOI:10.1109/NSSMIC.2016.8069398

M. Gallin-Martel, A. Bes, A. Boukhémiri, G. Bosson, J. Collot, D. Dauvergne, M. Fontana, L. Gallin-Martel, A. Gorecki, J. Hostachy, J. Krimmer, A. Lacoste, S. Marcatili, J. Morse, J. Muraz, F. Rarbi, O. Rossetto, M. Salomé, É. Testa, M. Yamouni

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引用次数: 9

Abstract

The French national collaboration CLaRyS aims at the on-line monitoring of hadron therapy by means of imaging nuclear reaction products that are related to the ion range. For this purpose, the MoniDiam project is dedicated to the development of a large area detector with a high detection efficiency for the primary carbon or proton beams, giving time and position measurements at count rates greater than 100 MHz. High radiation hardness and intrinsic electronic properties make diamonds reliable and very fast detectors with a good signal to noise ratio. Commercial Chemical Vapor Deposited (CVD) diamonds are studied starting with plasma etch thinning and contact metallization done at the LPSC laboratory. Their applicability as particle detector is being investigated using a and β radioactive sources, 95 MeV/u carbon ion beams and short-bunched 8.5 keV photons from the European Synchrotron Radiation Facility (ESRF). This last facility offers unique capability of highly focused beams, the X-ray energy deposition is continuous along the irradiated detector volume. It permits us to mimic the interaction of single ion beams. The possible application of diamonds as a position sensitive detector will be discussed from these radiation tests results. Finally, we focused on the diamond time response and energy resolution measurements. The reported study prefigures dedicated microelectronics developments.

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用于在线强子治疗光束标记应用的大面积多晶金刚石探测器

法国国家合作CLaRyS旨在通过对与离子范围相关的核反应产物进行成像来在线监测强子治疗。为此，MoniDiam项目致力于开发一种具有高探测效率的大面积探测器，用于初级碳束或质子束，以大于100 MHz的计数率进行时间和位置测量。高辐射硬度和本征电子特性使金刚石成为可靠的快速探测器，具有良好的信噪比。商业化学气相沉积(CVD)钻石的研究从等离子蚀刻薄化和接触金属化在LPSC实验室完成。它们作为粒子探测器的适用性正在用a和β放射源、95 MeV/u的碳离子束和来自欧洲同步辐射设施(ESRF)的短束8.5 keV光子进行研究。最后一个设备提供了独特的高度聚焦光束的能力，x射线能量沉积沿着辐照探测器体积连续。它允许我们模拟单个离子束的相互作用。将根据这些辐射试验结果讨论金刚石作为位置敏感探测器的可能应用。最后，我们重点研究了金刚石的时间响应和能量分辨率测量。报告的研究预示着专门的微电子发展。

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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来源期刊

2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD)

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