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数字全息显微测量中相位畸变的矫正方法 被引量:3

Correction method of phase distortion in digital holographic microscopy detection
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摘要 针对微尺寸(1 mm)透射型物体的数字全息显微测量中存在的相位畸变问题,提出一种相位矫正方法,通过改进预放大离轴菲涅耳数字全息记录光路以及全息图的卷积再现算法,消除了相位分布的一次畸变和二次畸变。使用该方法测量USAF1951分辨率板,成功矫正了其再现像的相位畸变,并得到了横向尺寸0.25 mm区域的清晰相位分布三维重建图。该方法的优点在于通过对记录光路和再现算法的改进,矫正相位畸变,直接得到正确的再现像相位,简化了相位补偿计算的步骤,很大程度地降低了相位重建过程的复杂程度,有利于对物体进行实时探测和快速重建。 In order to solve the problem of phase distortion in the micro size (<1 mm) transmitting objects measurement based on digital holographic microscopy, a new correction method was proposed. By improving the pre﹣amplification off﹣axis Fresnel digital holographic recording system and convolution reconstruction algorithm, the phase distortion including both one﹣fold and two﹣fold had been corrected. In the experiment, the phase distortion of USAF1951 resolution board was corrected, and the 3D image of phase distribution of part of the board with size of 0.25 mm was clearly reconstructed. The advantage of this method is eliminating the phase distortion by improved both the hologram recording system and the reconstruction algorithm, which greatly reduced the complicate degree of phase reconstruction process because of cutting the step of phase compensation, and contributes to the on﹣line detection and fast reconstruction of objects.
作者 王添 于佳 杨宇 闫高宾 王金城
机构地区 中国海洋大学信息科学与工程学院
出处 《红外与激光工程》 EI CSCD 北大核心 2014年第11期3615-3620,共6页 Infrared and Laser Engineering
关键词 预放大数字全息 相位畸变 离轴菲涅耳全息 卷积再现 相位解包裹 pre﹣magnificate digital holography phase distortion off﹣axis Fresnel holography convolution reconstruction phase unwrapped
分类号 TP391 [自动化与计算机技术—计算机应用技术]
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参考文献14

  • 1Goodman J W, Lawrence P W,Digital image formulationfrom electronically detected holograms [J]. Appl Phys Lett,1967, 11(3): 77-79.
  • 2Thomas C E, Bahm T M, Baylor L R, et al. Direct todigital holography for semiconductor wafer defect detectionand review LC]//SPIE( 2002, 4692: 180-194.
  • 3Dirksen D. Droste H, Bkemper B, et al. Lenless Fourierholography for digital holographic interferometry onbiological samples[J], Opt Laser Eng' 2001, 36(3): 241-240.
  • 4Bally G V. Kemper B. Digital holographic microscopy forthe life sciences[C]//Biomedical Optics and 3D Image OSA,2012.
  • 5赵洁,王大勇,王华英,张亦卓.用于微结构几何量测量的数字全息方法[J].红外与激光工程,2008,37(S1):173-176. 被引量:7
  • 6周灿林,亢一澜.数字全息干涉法用于变形测量[J].光子学报,2004,33(2):171-173. 被引量:41
  • 7Christopher J Mann, Ling Fengyu, Myung K Kim. Movies ofcellular and sub-cellular motion by digital holographicmicroscopy [J]. Biomedical Engineering Online、2006, 5(21):.
  • 8卫华英.数字全息显微成像的理论和实验研究[D].北京:北京工业大学,2008 : 88-90.
  • 9Cuche E, Marquet P, Depeursinge C. Simultaneousamplitude -contrast and quantitative phase-contrast microscopyby numerical reconstruction of Fresnel off-axis holograms [Jj.Appl Opt, 1999, 38(34): 6994-7001.
  • 10Schnars U, Juptner W P O. Digital recording and numericalreconstruction of holograms [J]. Mea Sci Tech, 2002, 3(9):85-101.

二级参考文献18

  • 1吕且妮,葛宝臻,张以谟.数字同轴和数字离轴全息系统分析[J].光电工程,2005,32(2):15-18. 被引量:11
  • 2李世扬,赵建林,范琦,宋小杉.基于自聚焦透镜的光纤数字全息系统实验研究[J].光子学报,2005,34(12):1829-1832. 被引量:9
  • 3杨威,邓玉林,徐敏.DA、5-HT及其代谢产物HPLC-ECD检测方法的研究[J].现代科学仪器,2006,23(3):44-46. 被引量:3
  • 4Fornaro G, Franceschetti G, LanaH R et al . Robust phase-unwrapping techniques, a comparison. J Opt Soc Am (A), 1996, 13(11):2355-2366.
  • 5Song S M H, Napel S, Pele NJ etal.. Phase unwrapping of MR phase images using Poisson equation. IEEE Trans.Image Process, 1995, 4(1) :667-676.
  • 6Su X Y. Phase unwrapping techniques for 3-D shape measurement, laroc. SPIE, 1996, 2866:460-465.
  • 7Strand J, Taxt T. Performance evaluation of two-dimensional phase unwrapping algorithms. Appl Opt ,1999, 38(20) :4333-4344.
  • 8Hunt B R. Matrix formulation of the reconstruction of phase values from phase differences. J Opt Soc Am (A), 1979, 69(3):393-399.
  • 9Kerr D, Kaufmann G H, Galizzi G E. Unwrapping of interferometric phase-fringe maps by the discrete cosine transform. Appl Opt , 1996, 3S(5):810-816.
  • 10Ghiglia D C, Romero L A. Robust two-dimensional weighted and unweighted phase unwrapping that uses fast transforms and iterative methods. J Opt Soc Am (A), 1994, 11(1):107-117.

共引文献78

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二级引证文献8

红外与激光工程
2014年 第11期

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