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Ptychographic iterative engine with partially coherent illumination for weakly scattering samples
Yu W(余伟); Tian XL(田晓琳); He XL(何小亮); Gao SM(高淑梅); Liu C(刘诚); Zhu JQ(朱健强); cheng.liu@hotmail.co.uk
2016
发表期刊物理学报
卷号65期号:18
摘要As an expansion of coherent diffraction imaging, ptychographic iterative engine (PIE) not only inherits advantages such as ultra-high resolution and compact optical system, but also expands the field of view in quantitative imaging, thus PIE is widely used in short wavelength imaging such as X-ray and electron beam imaging, and then extended to visible light field. However, PIE requires coherent illumination for both phase and amplitude retrieval, while traditional X-ray or electron beam sources often cannot satisfy this strict coherent condition, which leads to poor-quality information retrieval with low signal-to-noise ratio. Though several proposed methods such as multiple wavelength and multi-mode algorithms can eliminate incoherency influence to some extent, various details such as quantitative spectrum of illuminating source should be obtained before information retrieval, which complicates computing procedures. In addition, it is hard to acquire the spectrum of the illuminating source in most cases. In order to acquire high-quality information based on PIE with partially coherent illumination, a newly designed enhanced phase retrieval method for weakly scattering samples in PIE with partially coherent illumination is presented in this paper, in which only the bright field of the diffraction patterns is used in the iterative procedures mimicking the coherent cases especially for weakly scattering samples without any prior illuminating details. The bright field area can be regarded as purely coherent diffraction patterns composed of a strengthened zeroth order beam and a weakened diffracted beam. While the dark-field area generated by interference of diffracted beams cannot satisfy the requirement for coherence, therefore, dark-field diffraction patterns should be excluded in sample information extraction and only the bright field is used for phase retrieval via iterative process. Compared with the proposed multiple wavelength and multi-mode algorithms, the proposed method can simplify sample reconstructing procedures due to needing no prior knowledge. Moreover, in order to enhance the information of weakly scattering samples in retrieval, high order iteration method is also introduced in the paper. Since the bright field can be regarded as purely coherent diffraction patterns composed of a strengthened zeroth order beam and a weakened diffracted beam. For weakly scattering sample, the weakened diffracted beam is much lower than zeroth order beam, thus it is difficult to acquire high-contrast information with classical PIE algorithms. Introducing high order iterative tactic, the contrast of weakly scattering sample is obviously improved and the details of weakly scattering sample can be retrieved clearly. Both theoretical analysis and numerical simulations are illustrated in detail, proving the robustness and availability of the designed method: high-contrast phase information can be obtained with the proposed method, while traditional phase retrieval algorithm almost loses all details of the sample. In order to mimic the real experimental situation, a 30 dB white noise is added into the simulation, the details of weakly scattering sample phase information can also be retrieved clearly by using the bright field of the diffraction patterns with high order iteration method. With the newly designed enhanced phase retrieval method for weakly scattering samples with partially coherent illumination, sample retrieval via PIE can not only use ordinary X-ray source or electron beam as illumination source, thereby avoiding the dependence on complete coherent source, but also obviously improve the retrieval quality of the sample characteristics, which widely expands the application fields of the PIE.
文章类型Article
其他摘要分析了照明相干性对ptychography iterative engine (PIE)成像技术的影响机理,指出利用零级衍射光范围内的衍射斑进行图像重建,可以避免由于部分相干性所引入的矛盾因素,并大幅度提高再现像质量,但再现像的对比度会明显降低.而采用散射斑强度的高次方进行图像重建时,相位的倍增作用可使相干性不足所引起的对比度降低大部分得以弥补,从而大大降低PIE技术对光源相干性的依赖并拓展其可应用范围.
部门归属联合
DOI10.7498/aps.65.184202
资助者Natural Science Foundation of Jiangsu Province, China [BK2012548] ; Natural Science Foundation of Jiangsu Province, China [BK2012548] ; Natural Science Foundation of Jiangsu Province, China [BK2012548] ; Natural Science Foundation of Jiangsu Province, China [BK2012548]
收录类别SCI
资助者Natural Science Foundation of Jiangsu Province, China [BK2012548] ; Natural Science Foundation of Jiangsu Province, China [BK2012548] ; Natural Science Foundation of Jiangsu Province, China [BK2012548] ; Natural Science Foundation of Jiangsu Province, China [BK2012548]
WOS记录号WOS:000387135400009
引用统计
文献类型期刊论文
条目标识符http://ir.siom.ac.cn/handle/181231/27984
专题高功率激光物理国家实验室
通讯作者cheng.liu@hotmail.co.uk
作者单位中国科学院上海光学精密机械研究所
推荐引用方式
GB/T 7714
Yu W,Tian XL,He XL,et al. Ptychographic iterative engine with partially coherent illumination for weakly scattering samples[J]. 物理学报,2016,65(18).
APA 余伟.,田晓琳.,何小亮.,高淑梅.,刘诚.,...&cheng.liu@hotmail.co.uk.(2016).Ptychographic iterative engine with partially coherent illumination for weakly scattering samples.物理学报,65(18).
MLA 余伟,et al."Ptychographic iterative engine with partially coherent illumination for weakly scattering samples".物理学报 65.18(2016).
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