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Robust digital holography design with monitoring setup and reference tilt error elimination

A robust digital holography recording design is presented to complete the work of switching between in-line and off-axis recording methods. We precisely supervise the off-axis angle in off-axis holography, so that the original reconstructed image can be separated by a minimum off-axis angle. In the... Full description

Journal Title: Applied optics 01 March 2018, Vol.57(7), pp.B205-B211
Main Author: Xu, Xianfeng
Other Authors: Zhang, Zhiwei , Wang, Zecheng , Wang, Jing , Zhan, Kaiyun , Jia, Yulei , Jiao, Zhiyong
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 1539-4522 ; PMID: 29522022 Version:1 ; DOI: 10.1364/AO.57.00B205
Link: http://pubmed.gov/29522022
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recordid: medline29522022
title: Robust digital holography design with monitoring setup and reference tilt error elimination
format: Article
creator:
  • Xu, Xianfeng
  • Zhang, Zhiwei
  • Wang, Zecheng
  • Wang, Jing
  • Zhan, Kaiyun
  • Jia, Yulei
  • Jiao, Zhiyong
subjects:
  • Laser Beams – Research
  • Fourier Analysis – Usage
  • Holography – Analysis
  • Robustness (Statistics) – Usage
ispartof: Applied optics, 01 March 2018, Vol.57(7), pp.B205-B211
description: A robust digital holography recording design is presented to complete the work of switching between in-line and off-axis recording methods. We precisely supervise the off-axis angle in off-axis holography, so that the original reconstructed image can be separated by a minimum off-axis angle. In the design, we can also monitor and remove the negative effects of the reference tilt error in phase-shifting digital holography. Compared with the conventional digital holographic recording configuration, a supervising unit is introduced to control and to monitor the angle between the reference beam and object beam. By the Fourier analysis on the interferograms recorded by the supervising unit and using the corresponding equations, the off-axis angle, which is crucial to reset the object image in holographic reconstruction, can be calculated accurately and then chosen for the best recording angle. For in-line holography, the error affecting the slight tilt of the reference beam on the retrieved...
language: eng
source:
identifier: E-ISSN: 1539-4522 ; PMID: 29522022 Version:1 ; DOI: 10.1364/AO.57.00B205
fulltext: fulltext
issn:
  • 15394522
  • 1539-4522
url: Link


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titleRobust digital holography design with monitoring setup and reference tilt error elimination
creatorXu, Xianfeng ; Zhang, Zhiwei ; Wang, Zecheng ; Wang, Jing ; Zhan, Kaiyun ; Jia, Yulei ; Jiao, Zhiyong
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descriptionA robust digital holography recording design is presented to complete the work of switching between in-line and off-axis recording methods. We precisely supervise the off-axis angle in off-axis holography, so that the original reconstructed image can be separated by a minimum off-axis angle. In the design, we can also monitor and remove the negative effects of the reference tilt error in phase-shifting digital holography. Compared with the conventional digital holographic recording configuration, a supervising unit is introduced to control and to monitor the angle between the reference beam and object beam. By the Fourier analysis on the interferograms recorded by the supervising unit and using the corresponding equations, the off-axis angle, which is crucial to reset the object image in holographic reconstruction, can be calculated accurately and then chosen for the best recording angle. For in-line holography, the error affecting the slight tilt of the reference beam on the retrieved...
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titleRobust digital holography design with monitoring setup and reference tilt error elimination
descriptionA robust digital holography recording design is presented to complete the work of switching between in-line and off-axis recording methods. We precisely supervise the off-axis angle in off-axis holography, so that the original reconstructed image can be separated by a minimum off-axis angle. In the design, we can also monitor and remove the negative effects of the reference tilt error in phase-shifting digital holography. Compared with the conventional digital holographic recording configuration, a supervising unit is introduced to control and to monitor the angle between the reference beam and object beam. By the Fourier analysis on the interferograms recorded by the supervising unit and using the corresponding equations, the off-axis angle, which is crucial to reset the object image in holographic reconstruction, can be calculated accurately and then chosen for the best recording angle. For in-line holography, the error affecting the slight tilt of the reference beam on the retrieved...
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abstractA robust digital holography recording design is presented to complete the work of switching between in-line and off-axis recording methods. We precisely supervise the off-axis angle in off-axis holography, so that the original reconstructed image can be separated by a minimum off-axis angle. In the design, we can also monitor and remove the negative effects of the reference tilt error in phase-shifting digital holography. Compared with the conventional digital holographic recording configuration, a supervising unit is introduced to control and to monitor the angle between the reference beam and object beam. By the Fourier analysis on the interferograms recorded by the supervising unit and using the corresponding equations, the off-axis angle, which is crucial to reset the object image in holographic reconstruction, can be calculated accurately and then chosen for the best recording angle. For in-line holography, the error affecting the slight tilt of the reference beam on the retrieved...
doi10.1364/AO.57.00B205
pmid29522022
date2018-03-01