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多种图像采集策略下X射线折射信息的提取研究

王云波 李公平 潘小东 许楠楠

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多种图像采集策略下X射线折射信息的提取研究

王云波, 李公平, 潘小东, 许楠楠

Simulation of X-ray refraction information extraction using multiple image-collecting strategies

Wang Yun-Bo, Li Gong-Ping, Pan Xiao-Dong, Xu Nan-Nan
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  • 不同的图像采集策略下,基于分析晶体相衬成像技术的折射信息提取方法(衍射增强成像法、广义衍射增强成像法、多图成像法)的折射角提取结果有明显的差异. 与摇摆曲线腰位作为图像采集位置的传统策略相比,采集位置靠近摇摆曲线中轴时,衍射增强成像法能够提取得到更好的折射角结果. 广义衍射增强成像法的三个图像采集位置相对摇摆曲线中轴对称时,折射角的提取结果好于采集位置非对称的结果,并且采集位置靠近摇摆曲线中轴时,折射角的提取结果好于摇摆曲线腰位或趾位的结果. 对于多图成像法,相邻图像采集位置的角度间隔大于摇摆曲线半高全宽时,折射角提取结果非常差;而当角度间隔小于半高全宽并且图像采集位置对应的角度范围接近样品的最大折射角理论值时,能够获得很好的折射角提取结果. 此研究有助于实验上对图像采集策略的合理选择以及对折射信息提取方法的更深理解.
    With different strategies collecting images, the extraction results of refraction information using the diffraction-enhanced imaging (DEI), generalized diffraction-enhanced imaging (G-DEI) or multiple-image radiography (MIR) algorithm of analyzer-based imaging technique are greatly different from each other. Compared with the conventional strategy in which the images are acquired at the waist positions of rocking curve (RC), the one with the positions closer to the central axis of RC can obtain more accurate refraction information for the DEI algorithm. For the G-DEI algorithm taking three images, if the positions, where images are obtained, are symmetrical with respect to the central axis of RC, the extraction result of refraction information is better when the positions are asymmetrical. Besides, by comparison with the strategy in which the images are acquired at the waist or toe positions, the one with the positions closer to central axis of RC can obtain better result. If the angle interval of neighbor positions is larger than the full-width at half-maximum (FWHM) of RC, the extraction result of the MIR algorithm is bad. When the angle interval is smaller than the FWHM, and the value of angle range of all positions collecting images is close to the maximum theoretical value of sample, the extraction result is very good. This study will be helpful for reasonably choosing the image-collecting strategies in experiment, and further understanding the extraction algorithms of refraction information.
    • 基金项目: 中央高等学校基本科研基金(批准号:860452)资助的课题.
    • Funds: Project supported by the Fundamental Scientific Research Foundation for the Central Universities of China (Grant No. 860452).
    [1]

    Huang Z F 2006 Ph. D. Dissertation (Beijing: Tsinghua University) (in Chinese) [黄志峰 2006 博士学位论文 (北京: 清华大学)]

    [2]

    Als-Nielsen J, McMorrow D 2011 Elements of Modern X-ray Physics (2nd Ed.) (Chichester: John Wiley & Sons, Ltd.) pp69-221

    [3]

    Momose A, Takeda T, Yoneyama A, Koyama I, Itai Y 2001 Anal. Sci. 17 (suppl.) i527

    [4]

    Davis T J, Gao D, Gureyev T E, Stevenson A W, Wilkins S W 1995 Nature 373 595

    [5]

    Zhu P P, Wang J Y, Yuan Q X, Tian Y L, Huang W X, Li G, Hu T D, Jiang X M, Wu Z Y 2005 Acta Phys. Sin. 54 58 (in Chinese) [朱佩平, 王寯越, 袁清习, 田玉莲, 黄万霞, 黎刚, 胡天斗, 姜晓明, 吴自玉 2005 物理学报 54 58]

    [6]

    Diemoz P C, Bravin A, Glaser C, Coan P 2010 Phys. Med. Biol. 55 7663

    [7]

    Chapman D, Thomlinson W, Johnston R E, Washburn D, Pisano E, Gur N, Zhong Z, Menk R, Arfelli F, Sayers D 1997 Phys. Med. Biol. 42 2015

    [8]

    Zhu P P, Yuan Q X, Huang W X, Wang J Y, Shu H, Wu Z Y, Xian D C 2006 Acta Phys. Sin. 55 1089 (in Chinese)[朱佩平, 袁清习, 黄万霞, 王寯越, 舒航, 吴自玉, 冼鼎昌 2006 物理学报 55 1089]

    [9]

    Hu C H, Zhang L, Li H, Luo S Q 2008 Opt. Express 16 16704

    [10]

    Chou C Y, Anastasio M A, Brankov J G, Wernick M N, Brey E M, Connor D M, Zhong Z 2007 Phys. Med. Biol. 52 1923

    [11]

    Rigon L, Arfelli F, Menk R H 2007 Appl. Phys. Lett. 90 114102

    [12]

    Li H, Luo S Q, Wang X Y, Zhang L, Hu C H 2009 Acta Phys. Sin. 58 2423 (in Chinese) [李辉, 罗述谦, 王雪艳, 张璐, 胡春红 2009 物理学报 58 2423]

    [13]

    Wernick M N, Wirjadi O, Chapman D, Zhong Z, Galatsanos N P, Yang Y Y, Brankov J G, Oltulu O, Anastasio M A, Muehleman C 2003 Phys. Med. Biol. 48 3875

    [14]

    Pagot E, Cloetens P, Fiedler S, Bravin A, Coan P, Baruchel J, Härtwig J, Thomlinson W 2003 Appl. Phys. Lett. 82 3421

    [15]

    Nesterets Y I, Coan P, Gureyev T E, Bravin A, Cloetens P, Wilkins S W 2006 Acta Cryst. A 62 296

    [16]

    Rigon L, Besch H J, Arfelli F, Menk R H, Heitner G, Besch H P 2003 J. Phys. D: Appl. Phys. 36 A107

  • [1]

    Huang Z F 2006 Ph. D. Dissertation (Beijing: Tsinghua University) (in Chinese) [黄志峰 2006 博士学位论文 (北京: 清华大学)]

    [2]

    Als-Nielsen J, McMorrow D 2011 Elements of Modern X-ray Physics (2nd Ed.) (Chichester: John Wiley & Sons, Ltd.) pp69-221

    [3]

    Momose A, Takeda T, Yoneyama A, Koyama I, Itai Y 2001 Anal. Sci. 17 (suppl.) i527

    [4]

    Davis T J, Gao D, Gureyev T E, Stevenson A W, Wilkins S W 1995 Nature 373 595

    [5]

    Zhu P P, Wang J Y, Yuan Q X, Tian Y L, Huang W X, Li G, Hu T D, Jiang X M, Wu Z Y 2005 Acta Phys. Sin. 54 58 (in Chinese) [朱佩平, 王寯越, 袁清习, 田玉莲, 黄万霞, 黎刚, 胡天斗, 姜晓明, 吴自玉 2005 物理学报 54 58]

    [6]

    Diemoz P C, Bravin A, Glaser C, Coan P 2010 Phys. Med. Biol. 55 7663

    [7]

    Chapman D, Thomlinson W, Johnston R E, Washburn D, Pisano E, Gur N, Zhong Z, Menk R, Arfelli F, Sayers D 1997 Phys. Med. Biol. 42 2015

    [8]

    Zhu P P, Yuan Q X, Huang W X, Wang J Y, Shu H, Wu Z Y, Xian D C 2006 Acta Phys. Sin. 55 1089 (in Chinese)[朱佩平, 袁清习, 黄万霞, 王寯越, 舒航, 吴自玉, 冼鼎昌 2006 物理学报 55 1089]

    [9]

    Hu C H, Zhang L, Li H, Luo S Q 2008 Opt. Express 16 16704

    [10]

    Chou C Y, Anastasio M A, Brankov J G, Wernick M N, Brey E M, Connor D M, Zhong Z 2007 Phys. Med. Biol. 52 1923

    [11]

    Rigon L, Arfelli F, Menk R H 2007 Appl. Phys. Lett. 90 114102

    [12]

    Li H, Luo S Q, Wang X Y, Zhang L, Hu C H 2009 Acta Phys. Sin. 58 2423 (in Chinese) [李辉, 罗述谦, 王雪艳, 张璐, 胡春红 2009 物理学报 58 2423]

    [13]

    Wernick M N, Wirjadi O, Chapman D, Zhong Z, Galatsanos N P, Yang Y Y, Brankov J G, Oltulu O, Anastasio M A, Muehleman C 2003 Phys. Med. Biol. 48 3875

    [14]

    Pagot E, Cloetens P, Fiedler S, Bravin A, Coan P, Baruchel J, Härtwig J, Thomlinson W 2003 Appl. Phys. Lett. 82 3421

    [15]

    Nesterets Y I, Coan P, Gureyev T E, Bravin A, Cloetens P, Wilkins S W 2006 Acta Cryst. A 62 296

    [16]

    Rigon L, Besch H J, Arfelli F, Menk R H, Heitner G, Besch H P 2003 J. Phys. D: Appl. Phys. 36 A107

计量
  • 文章访问数:  1774
  • PDF下载量:  527
  • 被引次数: 0
出版历程
  • 收稿日期:  2013-11-30
  • 修回日期:  2014-01-13
  • 刊出日期:  2014-05-05

多种图像采集策略下X射线折射信息的提取研究

  • 1. 兰州大学核科学与技术学院, 兰州 730000
    基金项目: 

    中央高等学校基本科研基金(批准号:860452)资助的课题.

摘要: 不同的图像采集策略下,基于分析晶体相衬成像技术的折射信息提取方法(衍射增强成像法、广义衍射增强成像法、多图成像法)的折射角提取结果有明显的差异. 与摇摆曲线腰位作为图像采集位置的传统策略相比,采集位置靠近摇摆曲线中轴时,衍射增强成像法能够提取得到更好的折射角结果. 广义衍射增强成像法的三个图像采集位置相对摇摆曲线中轴对称时,折射角的提取结果好于采集位置非对称的结果,并且采集位置靠近摇摆曲线中轴时,折射角的提取结果好于摇摆曲线腰位或趾位的结果. 对于多图成像法,相邻图像采集位置的角度间隔大于摇摆曲线半高全宽时,折射角提取结果非常差;而当角度间隔小于半高全宽并且图像采集位置对应的角度范围接近样品的最大折射角理论值时,能够获得很好的折射角提取结果. 此研究有助于实验上对图像采集策略的合理选择以及对折射信息提取方法的更深理解.

English Abstract

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