Electron beam density imaging system at Beam study using a portable slit the Shanghai Electron Ion Trap  

作　　者：Yang Yang Lu Di Pu Yun-Qing Yao Ke Chen Wei-Dong Xiao Jun Geng Zhi-Xian Roger Hutton Zou Ya-Ming 

机构地区：[1]The Key Laboratory of Applied Ion Beam Physics of Ministry of Education, Shanghai 200433, China [2]Shanghai Electron Beam Ion Trap Laboratory, Institute of Modern Physics, Fudan University, Shanghai 200433, China

出　　处：《Chinese Physics B》2011年第8期136-142,共7页中国物理B（英文版）

基　　金：Project supported by the National Natural Science Foundation of China （Grant No. 11074049）, the Chinese National Fusion Project for ITER （Grant No. 2009GB106001）, and the Shanghai Leading Academic Discipline Project, China （Grant No. B107）.

摘　　要：In this work, a portable slit imaging system is developed to study both the electron beam diameter and the profile of the newly developed Shanghai Electron Beam Ion Trap （Shanghai EBIT）. Images are detected by a charge coupled device （CCD） sensitive to both X rays and longer wavelength photons （up to visible）. Large scale ray tracings were conducted for correcting the image broadening effects caused by the finite slit width and the finite width of the CCD pixels. A numerical de-convolution method was developed to analyse and reconstruct the electron beam density distribution in the EBIT. As an example of the measured beam diameter and current density, the FWHM （full width at half maximum） diameter of the electron beam at 81 keV and 120 mA is found to be 76.2 μm and the density 2.00 × 10^3 A.cm-2, under a magnetic field of 3 T, including all corrections.In this work, a portable slit imaging system is developed to study both the electron beam diameter and the profile of the newly developed Shanghai Electron Beam Ion Trap （Shanghai EBIT）. Images are detected by a charge coupled device （CCD） sensitive to both X rays and longer wavelength photons （up to visible）. Large scale ray tracings were conducted for correcting the image broadening effects caused by the finite slit width and the finite width of the CCD pixels. A numerical de-convolution method was developed to analyse and reconstruct the electron beam density distribution in the EBIT. As an example of the measured beam diameter and current density, the FWHM （full width at half maximum） diameter of the electron beam at 81 keV and 120 mA is found to be 76.2 μm and the density 2.00 × 10^3 A.cm-2, under a magnetic field of 3 T, including all corrections.

关 键 词：electron beam density slit imaging de-convolution 

分 类 号：TN011[电子电信—物理电子学] O53[理学—等离子体物理]