An alternative phase retrieval technique is discussed in this paper, which offers some advantages for the obtained resolution and reconstruction procedure. In contrast to commonly applied iterative phase retrieval routines, diffraction patterns with varying distance between the illumination source and the object are recorded. This has the same effect as changing the object sensor distance, albeit offering the advantage of preserving the resolution. Moreover, it is possible to employ the direct Fresnel propagation method without having to worry about different pixel sizes in the reconstruction plane. In addition, the influence of speckle decorrelation has carefully been studied and considered for the experimental implementation.
%0 Journal Article
%1 Claus:17
%A Claus, Daniel
%A Pedrini, Giancarlo
%A Osten, Wolfgang
%D 2017
%I Optica Publishing Group
%J Appl. Opt.
%K giancarlo_pedrini ito journal reviewed
%N 13
%P F134--F137
%R 10.1364/AO.56.00F134
%T Iterative phase retrieval based on variable wavefront curvature
%U https://opg.optica.org/ao/abstract.cfm?URI=ao-56-13-F134
%V 56
%X An alternative phase retrieval technique is discussed in this paper, which offers some advantages for the obtained resolution and reconstruction procedure. In contrast to commonly applied iterative phase retrieval routines, diffraction patterns with varying distance between the illumination source and the object are recorded. This has the same effect as changing the object sensor distance, albeit offering the advantage of preserving the resolution. Moreover, it is possible to employ the direct Fresnel propagation method without having to worry about different pixel sizes in the reconstruction plane. In addition, the influence of speckle decorrelation has carefully been studied and considered for the experimental implementation.
@article{Claus:17,
abstract = {An alternative phase retrieval technique is discussed in this paper, which offers some advantages for the obtained resolution and reconstruction procedure. In contrast to commonly applied iterative phase retrieval routines, diffraction patterns with varying distance between the illumination source and the object are recorded. This has the same effect as changing the object sensor distance, albeit offering the advantage of preserving the resolution. Moreover, it is possible to employ the direct Fresnel propagation method without having to worry about different pixel sizes in the reconstruction plane. In addition, the influence of speckle decorrelation has carefully been studied and considered for the experimental implementation.},
added-at = {2023-06-26T07:49:37.000+0200},
author = {Claus, Daniel and Pedrini, Giancarlo and Osten, Wolfgang},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/245467c40a43d43a40a41393cba394e69/ffischer},
doi = {10.1364/AO.56.00F134},
interhash = {b7c4624462c37abc133d50352498936b},
intrahash = {45467c40a43d43a40a41393cba394e69},
journal = {Appl. Opt.},
keywords = {giancarlo_pedrini ito journal reviewed},
month = may,
number = 13,
pages = {F134--F137},
publisher = {Optica Publishing Group},
timestamp = {2023-08-10T10:17:29.000+0200},
title = {Iterative phase retrieval based on variable wavefront curvature},
url = {https://opg.optica.org/ao/abstract.cfm?URI=ao-56-13-F134},
volume = 56,
year = 2017
}