电离型截面探测器研究

针对强流质子加速器非拦截式的截面测量需求,开展了以剩余气体分子为基础的电离型截面探测器的研究工作。探索了电离信号强度的计算方法,利用CST(Computer Simulation Technology)电磁工作室对电场进行了优化设计,设计加工了一套应用于质子直线加速器的电离型截面探测器,该装置利用高压电极产生的电场引导电离产物,用微通道板放大电离信号,荧光屏和相机组成探测系统。该电离型截面探测器被安装于加速器驱动次临界系统(China Accelerator Driven Subcritical system,ADS)先导专项的注入器I上,在线束流实验证明,该套设备工作稳定正常,实现了束流截面...

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Bibliographic Details
Published in核技术 Vol. 40; no. 11; pp. 27 - 32
Main Author 何俊 汪林 赵晓岩 于令达 随艳峰 岳军会 曹建社
Format Journal Article
LanguageChinese
Published 中国科学院高能物理研究所粒子加速物理与技术重点实验室 北京 100049 2017
Subjects
截面测量
电场优化
电离型
质子加速器
非拦截式
电离型
非拦截式
Non-invasive
Electrical field optimization
Ionization
Profile measurement
截面测量
电场优化
Proton accelerator
质子加速器
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ISSN0253-3219
DOI10.11889/j.0253-3219.2017.hjs.40.110401

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Summary:针对强流质子加速器非拦截式的截面测量需求,开展了以剩余气体分子为基础的电离型截面探测器的研究工作。探索了电离信号强度的计算方法,利用CST(Computer Simulation Technology)电磁工作室对电场进行了优化设计,设计加工了一套应用于质子直线加速器的电离型截面探测器,该装置利用高压电极产生的电场引导电离产物,用微通道板放大电离信号,荧光屏和相机组成探测系统。该电离型截面探测器被安装于加速器驱动次临界系统(China Accelerator Driven Subcritical system,ADS)先导专项的注入器I上,在线束流实验证明,该套设备工作稳定正常,实现了束流截面的非拦截式测量。
Bibliography:HE Jun, WANG Lin ,ZHAO Xiaoyan, YU Lingda, SUI Yanfeng ,UE Junhui ,CAO Jianshe (Key Laboratory of Particle Acceleration Physics and Technology, Institute of High Energy Physics Chinese Academy of Sciences, Beijing 100049, China)
Proton accelerator, Non-invasive, Ionization, Profile measurement, Electrical field optimization
31-1342/TL
Background: Beam profile determination at high intensity hadron accelerators implies the usage of non-invasive methods. Purpose: This study aims to develop the profile measurement technology for high intensity proton accelerator. Methods: The transverse profile of the beam was monitored via detecting the ionization products produced by the collision of proton with residual gas in the vacuum pipe. High-voltage electrodes were used for producing electrical field to guide ionized offspring whilst microchannel plates (MCP) was employed to amplify the signal The screen and charge-coupled device (CCD) system were used for position detection. Results & Conclusion: An ionization profile mo
ISSN:0253-3219
DOI:10.11889/j.0253-3219.2017.hjs.40.110401