Reconstruction of grain boundaries in polycrystals by filtered back-projection of diffraction spots

被引:21
|
作者
Poulsen, HF [1 ]
Schmidt, S [1 ]
机构
[1] Riso Natl Lab, Ctr Fundamental Res Met Struct Dimens 4, DK-4000 Roskilde, Denmark
来源
JOURNAL OF APPLIED CRYSTALLOGRAPHY | 2003年 / 36卷
关键词
D O I
10.1107/S0021889803002358
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
A reconstruction method is presented for the generation of three-dimensional maps of the grain boundaries within powders or polycrystals. The grains are assumed to have a mosaic spread below 1degrees. They are mapped non-destructively by diffraction with hard X-rays, using a uniform mm(2)-sized beam. First the diffraction spots are sorted with respect to grain of origin by the indexing program GRAINDEX. Next, for each grain the reconstruction is performed by a variant of the filtered back-projection algorithm. The reconstruction method is verified by a simulation over ten grains. Using 64 reflections for each grain, subpixel accuracy is obtained. The potential of the method is outlined.
引用
收藏
页码:319 / 325
页数:7
相关论文
共 50 条
  • [1] An adaptive filtered back-projection for photoacoustic image reconstruction
    Huang, He
    Bustamante, Gilbert
    Peterson, Ralph
    Ye, Jing Yong
    MEDICAL PHYSICS, 2015, 42 (05) : 2169 - 2178
  • [2] Generalized filtered back-projection reconstruction in breast tomosynthesis
    Claus, Bernhard E. H.
    Eberhard, Jeffrey W.
    Schmitz, Andrea
    Carson, Paul
    Goodsitt, Mitchell
    Chan, Heang-Ping
    DIGITAL MAMOGRAPHY, PROCEEDINGS, 2006, 4046 : 167 - 174
  • [3] Investigation of filter choice for filtered back-projection reconstruction in PET
    Farquhar, T.H.
    Chatziioannou, A.
    Chinn, G.
    Dahlbom, M.
    Hoffman, E.J.
    IEEE Transactions on Nuclear Science, 1998, 45 (3 pt 2): : 1133 - 1137
  • [4] An investigation of filter choice for filtered back-projection reconstruction in PET
    Farquhar, TH
    Chatziioannou, A
    Chinn, G
    Dahlbom, M
    Hoffman, EJ
    IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 1998, 45 (03) : 1133 - 1137
  • [5] Reconstruction in PET From Filtered Back-Projection to Artificial Intelligence
    Gong, Kuang
    Kim, Kyungsang
    Cui, Jianan
    Wu, Dufan
    Li, Quanzheng
    PET CLINICS, 2021, 16 (04) : 533 - 542
  • [6] An investigation of filter choice for filtered back-projection reconstruction in PET
    Farquhar, TH
    Chatziioannou, A
    Chinn, G
    Dahlbom, M
    Hoffman, EJ
    1997 IEEE NUCLEAR SCIENCE SYMPOSIUM - CONFERENCE RECORD, VOLS 1 & 2, 1998, : 1042 - 1046
  • [7] Improvement of wavelet threshold filtered back-projection image reconstruction algorithm
    Ren, Zhong
    Liu, Guodong
    Huang, Zhen
    INTERNATIONAL SYMPOSIUM ON OPTOELECTRONIC TECHNOLOGY AND APPLICATION 2014: IMAGE PROCESSING AND PATTERN RECOGNITION, 2014, 9301
  • [8] Weighted Filtered Back-Projection for Source Translation Computed Tomography Reconstruction
    Chen, Jie
    Yu, Haijun
    Ni, Song
    Liu, Chuanjiang
    Ge, Wenjie
    Huang, Yixing
    Liu, Fenglin
    IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2023, 72
  • [9] Comparison between Filtered Back-Projection and Spline and Chebyshev Reconstruction Techniques
    Kastis, G. A.
    Samartzis, A.
    Fokas, A. S.
    EUROPEAN JOURNAL OF NUCLEAR MEDICINE AND MOLECULAR IMAGING, 2010, 37 : S221 - S221
  • [10] Filtered Back-projection Photoacoustic Denoising Reconstruction Based on Empirical Mode Decomposition
    Kong Qinglin
    Xu Huizhen
    Peng Dongqing
    24TH NATIONAL LASER CONFERENCE & FIFTEENTH NATIONAL CONFERENCE ON LASER TECHNOLOGY AND OPTOELECTRONICS, 2020, 11717
12345