Fabricating Parameters Optimization of High Frequency Grating by Multi-scanning Electron Beam Method

被引:0
|
作者
Y. R. Zhao
Z. K. Lei
Y. M. Xing
X. H. Hou
P. C. Bai
机构
[1] Inner Mongolia University of Technology,School of Civil Engineering
[2] Dalian University of Technology,State Key Laboratory of Structural Analysis for Industrial Equipment
[3] Inner Mongolia University of Technology,Department of Applied Mechanics
[4] Inner Mongolia University of Technology,College of Materials Science and Engineering
来源
Experimental Mechanics | 2014年 / 54卷
关键词
Nano grating; Cross grid; Grating error analysis; Optimal parameters; SEM;
D O I
暂无
中图分类号
学科分类号
摘要
The electron-beam moiré method uses a high frequency grating to measure microscopic deformation. Increasingly fine gratings are being developed to achieve increasingly high resolutions in microscopic stress analysis. In this study, we improve the electron grid fabricating technique by using a common scanning electron microscope (SEM). An error analysis for the multi-scanning grating was performed by a sampling moiré method. The grating manufacturing parameters strongly affect the superfine grating quality. A high accelerating voltage or a short working distance yield better results generally. A set of optimal parameters is suggested based on a minimum-error criterion. A cross-line grid with a frequency of 10,000 lines/mm and a parallel grating with a frequency of 13,000 lines/mm were successfully fabricated.
引用
收藏
页码:45 / 55
页数:10
相关论文
共 50 条
  • [1] Fabricating Parameters Optimization of High Frequency Grating by Multi-scanning Electron Beam Method
    Zhao, Y. R.
    Lei, Z. K.
    Xing, Y. M.
    Hou, X. H.
    Bai, P. C.
    [J]. EXPERIMENTAL MECHANICS, 2014, 54 (01) : 45 - 55
  • [2] MULTI-SCANNING ELECTRON-BEAM ANNEALING OF PHOSPHORUS-IMPLANTED SILICON
    BENTINI, GG
    GALLONI, R
    NIPOTI, R
    [J]. APPLIED PHYSICS LETTERS, 1980, 36 (08) : 661 - 663
  • [3] New method of fabricating ultrahigh frequency grating
    Wang, Zhaoyang
    Dai, Fulong
    [J]. Guangxue Jishu/Optical Technique, 1999, (03): : 53 - 55
  • [4] Multiscanning method for fabricating electron moiré grating
    Y. M. Xing
    S. Kishimoto
    N. Shinya
    [J]. Experimental Mechanics, 2004, 44 (6) : 562 - 566
  • [5] Multiscanning method for fabricating electron moire grating
    Xing, YM
    Kishimoto, S
    Shinya, N
    [J]. EXPERIMENTAL MECHANICS, 2004, 44 (06) : 562 - 566
  • [6] Multi-scanning circuit for high-speed pulse sampling
    Chen, Yu-Xiao
    Tang, Dan
    Yang, Mo-Hua
    Deng, Jun
    [J]. Hedianzixue Yu Tance Jishu/Nuclear Electronics and Detection Technology, 2006, 26 (02): : 150 - 152
  • [7] Automatic beam optimization method for scanning electron microscopy based on electron beam Kernel estimation
    Yunje Cho
    Junghee Cho
    Jonghyeok Park
    Jeonghyun Wang
    Seunggyo Jeong
    Jubok Lee
    Yun Hwang
    Jiwoong Kim
    Jeongwoo Yu
    Heesu Chung
    Hyenok Park
    Subong Shon
    Taeyong Jo
    Myungjun Lee
    Kwangrak Kim
    [J]. Communications Engineering, 3 (1):
  • [8] TITANIUM AND NICKEL SILICIDE FORMATION AFTER Q-SWITCHED LASER AND MULTI-SCANNING ELECTRON-BEAM IRRADIATION
    BENTINI, GG
    SERVIDORI, M
    COHEN, C
    NIPOTI, R
    DRIGO, AV
    [J]. JOURNAL OF APPLIED PHYSICS, 1982, 53 (03) : 1525 - 1531
  • [9] Fabrication of high-frequency electron beam moire grating using multi-deposited layer techniques
    Xie, HM
    Kishimoto, S
    Shinya, N
    [J]. OPTICS AND LASER TECHNOLOGY, 2000, 32 (05): : 361 - 367
  • [10] Optimization possibility of beam scanning for electron beam welding: Physics understanding and parameters selection criteria
    Luo, Manlelan
    Hu, Renzhi
    Liu, Tongtong
    Wu, Bing
    Pang, Shengyong
    [J]. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2018, 127 : 1313 - 1326
12345