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聚变反应速率测量光学系统设计 被引量:1

Design of optical system for fusion reaction-rate measurement
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摘要 基于塑料闪烁体和条纹相机设计了聚变反应速率测量系统,论述了测量光学系统的工作原理和设计方法。通过设置防辐射石英玻璃窗,防止了光学元件受强X射线辐射而变暗;采用晶体等紫外透过率高的光学材料,满足了光学系统对透过率的要求;光学系统像面与条纹相机的阴极面直接对接,解决了条纹相机孔径不匹配的问题;最后在一次像面设置场镜,大幅缩小了光学元件的口径。设计的光学系统总长为2 660mm,放大倍率为1/3,像方F/#数达到0.667,系统透过率达到67%,时间弥散小于7.3ps。这些结果能够适应不同中子产额的实验需求,在激光打靶实验中取得了较好的实验效果。 Based on a plastic scintillator and an optic streak camera, a measuring system for fusion re- action-rate was designed, then the working princile and design method of the measuring system were addressed in detail. A piece of fused silicawindow was set just behind the plastic sciritillator to protect optical elements from darkening after a long time exposure in scatted X rays and the ultraviolet crys- tals and other ultraviolet glass were selected to ensure the high system transmission. Furthermore, the image plane of the optical system was put onto a photocathode of the streak camera directly to re- move the aperture non-matching of input optic system of the streak camera. Finally, a field mirror was put on the first image plane to reduce the max diameter of optical element from 160 mm to 120 mm. The designed optical system has a total length of 2 660 mm, magnification of 3 : 1 and its final lens is F/O. 667 and transmission is 67%. Moreover, the time dispersion of the optical system is less than 7.3 ps. These results meet the experimental needs of different neutron yields and good experi- mental results have been obtained in a laser targeting experiment.
作者 闫亚东 何俊华
机构地区 中国科学院西安光学精密机械研究所
出处 《光学精密工程》 EI CAS CSCD 北大核心 2012年第11期2389-2394,共6页 Optics and Precision Engineering
基金 国家教育部博士点(西部)基金资助项目(No.200929441213)
关键词 聚变反应速率 反应速率测量 中子 光学设计 时间弥散 fusion reaction-rate reaction rate measurement neutron optical design temporal dispersion
分类号 TL62 [核科学技术—核技术及应用] TH703 [机械工程—精密仪器及机械]
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参考文献12

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二级参考文献17

  • 1宁家敏,蒋世伦,徐荣昆,郭存.强脉冲软X光辐照薄塑料闪烁体发光特性研究[J].强激光与粒子束,2006,18(7):1215-1218. 被引量:14
  • 2李思宁,王骐,刘金波,广宇昊,李慧子.条纹管激光成像系统空间分辨力实验研究[J].光学学报,2007,27(6):1023-1026. 被引量:12
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光学精密工程
2012年 第11期

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