Axial multi-image phase retrieval under tilt illumination

Axial multi-image phase retrieval under tilt illumination

Abstract As a coherent diffractive imaging technique, axial multi-image phase retrieval utilizes a series of diffraction patterns on the basis of axial movement diversity to reconstruct full object wave field. Theoretically, fast convergence and high-accuracy of axial multi-image phase retrieval are...

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Main Authors: Cheng Guo, Qiang Li, Ce Wei, Jiubin Tan, Shutian Liu, Zhengjun Liu
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-08045-3
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spelling doaj-521bf5afd75d49d98b0c1cea30e9378e2020-12-08T00:17:42ZengNature Publishing GroupScientific Reports2045-23222017-08-01711810.1038/s41598-017-08045-3Axial multi-image phase retrieval under tilt illuminationCheng Guo0Qiang Li1Ce Wei2Jiubin Tan3Shutian Liu4Zhengjun Liu5Department of Automatic test and control, Harbin Institute of TechnologyDepartment of Automatic test and control, Harbin Institute of TechnologyDepartment of Automatic test and control, Harbin Institute of TechnologyDepartment of Automatic test and control, Harbin Institute of TechnologyDepartment of Physics, Harbin Institute of TechnologyDepartment of Automatic test and control, Harbin Institute of TechnologyAbstract As a coherent diffractive imaging technique, axial multi-image phase retrieval utilizes a series of diffraction patterns on the basis of axial movement diversity to reconstruct full object wave field. Theoretically, fast convergence and high-accuracy of axial multi-image phase retrieval are demonstrated. In experiment, its retrieval suffers from the tilt illumination, in which diffraction patterns will shift in the lateral direction as the receiver traverses along the axis. In this case, the reconstructed result will be blurry or even mistaken. To solve this problem, we introduce cross-correlation calibration to derive the oblique angle and employ tilt diffraction into axial phase retrieval to recover a target, which is successfully demonstrated in simulation and experiment. Also, our method could provide a useful guidance for measuring how obliquely the incident light illuminates in an optical system.https://doi.org/10.1038/s41598-017-08045-3
collection DOAJ
language English
format Article
sources DOAJ
author Cheng Guo
Qiang Li
Ce Wei
Jiubin Tan
Shutian Liu
Zhengjun Liu
spellingShingle Cheng Guo
Qiang Li
Ce Wei
Jiubin Tan
Shutian Liu
Zhengjun Liu
Axial multi-image phase retrieval under tilt illumination
Scientific Reports
author_facet Cheng Guo
Qiang Li
Ce Wei
Jiubin Tan
Shutian Liu
Zhengjun Liu
author_sort Cheng Guo
title Axial multi-image phase retrieval under tilt illumination
title_short Axial multi-image phase retrieval under tilt illumination
title_full Axial multi-image phase retrieval under tilt illumination
title_fullStr Axial multi-image phase retrieval under tilt illumination
title_full_unstemmed Axial multi-image phase retrieval under tilt illumination
title_sort axial multi-image phase retrieval under tilt illumination
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract As a coherent diffractive imaging technique, axial multi-image phase retrieval utilizes a series of diffraction patterns on the basis of axial movement diversity to reconstruct full object wave field. Theoretically, fast convergence and high-accuracy of axial multi-image phase retrieval are demonstrated. In experiment, its retrieval suffers from the tilt illumination, in which diffraction patterns will shift in the lateral direction as the receiver traverses along the axis. In this case, the reconstructed result will be blurry or even mistaken. To solve this problem, we introduce cross-correlation calibration to derive the oblique angle and employ tilt diffraction into axial phase retrieval to recover a target, which is successfully demonstrated in simulation and experiment. Also, our method could provide a useful guidance for measuring how obliquely the incident light illuminates in an optical system.
url https://doi.org/10.1038/s41598-017-08045-3
work_keys_str_mv AT chengguo axialmultiimagephaseretrievalundertiltillumination
AT qiangli axialmultiimagephaseretrievalundertiltillumination
AT cewei axialmultiimagephaseretrievalundertiltillumination
AT jiubintan axialmultiimagephaseretrievalundertiltillumination
AT shutianliu axialmultiimagephaseretrievalundertiltillumination
AT zhengjunliu axialmultiimagephaseretrievalundertiltillumination
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